UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
GF
ACADEMIC UNDERGRADUATE PROGRAMME IN
CIVIL ENGINEERING
Rijeka, July 2012.
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
STUDY PROGRAMME AND CURRICULUM
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Information on the Proposing Party: FACULTY OF CIVIL ENGINEERING Radmile Matejčić 3, 51000 Rijeka, CROATIA Phone: + 385 51 265 900 Fax: + 385 51 265 998 e-mail:
[email protected] http://www.gradri.uniri.hr/
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
CONTENTS
page
1.
INTRODUCTION ..................................................................................................................... 3
2.
GENERAL INFORMATION ..................................................................................................... 4
2.1.
PROGRAMME NAME............................................................................................................................ 4
2.2.
PARTY MANAGING AND CARRYING OUT THE STUDY PROGRAMME ........................................... 4
2.3.
PROGRAMME DURATION ................................................................................................................... 4
2.4.
PROGRAMME ENTRANCE REQUIREMENTS .................................................................................... 4
2.5.
COMPETENCES ACQUIRED BY THE STUDENT WITH COMPLETION OF THE PROGRAMME...... 4
2.6.
ACADEMIC TITLE OR DEGREE ACQUIRED ON COMPLETION OF THE PROGRAMME ................. 4
3.
PROGRAMME DESCRIPTION ............................................................................................... 5
3.1.
LIST OF MANDATORY AND OPTIONAL COURSES ........................................................................... 5
3.2.
COURSE DESCRIPTION ...................................................................................................................... 6
3.2.1.
Description of mandatory and optional courses ..................................................................................... 6
3.2.2.
Explanation of ETCS credits ...............................................................................................................589
3.2.2.1. Explanation of ETCS credits by courses.............................................................................................. 58 3.2.3.
Quality assurance procedures and course (module) performance indicators ...................................... 59
3.3.
STUDY STRUCTURE.......................................................................................................................... 60
3.3.1.
Study Dynamics ................................................................................................................................... 62
3.3.2.
Student Requirements ......................................................................................................................... 62
3.3.2.1. Enrollment requirements for the subsequent academic year ............................................................... 62 3.3.2.2. Pre-requisites for courses enrolment ................................................................................................... 62 3.4.
LIST OF COURSES THE STUDENTS CAN ENROLL INTO AT OTHER COURSES OF STUDY ...... 63
3.5.
LIST OF COURSES THAT CAN BE OFFERED IN FOREIGN LANGUAGE ....................................... 63
3.6.
CRITERIA AND CONDITIONS FOR TRANSCRIPTION OF ECTS ..................................................... 63
3.7.
COMPLETION OF THE STUDY .......................................................................................................... 63
3.8.
CONDITIONS FOR CONTINUATION OF THE STUDY FOR STUDENTS WHO INTERRUPTED THE STUDY .................................................................................................... 63
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
1.
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
INTRODUCTION
During the implementation of the Bologna process the Faculty of Civil Engineering of the University of Rijeka plans to reform the current study programmes (academic, vocational and postgraduate programmes) in line with the principles of the Bologna Declaration, namely in accordance with the propositions of the European Credit Transfer System (ECTS). This will be performed in order to promote student mobility in the Integrated European Higher Education Area. The Faculty of Civil Engineering of the University of Rijeka organized and started carrying out civil engineering studies as an independent institution in 1976. During a forty-two-year activity a total of 1332 Diploma Engineers graduated from the Academic Programme, and 1431 Engineers from the Vocational Programme. In structuring the new study programmes, the Faculty has followed the past experience in educating civil engineering professionals. For the purpose of integrating Croatia into the European Higher Education and Labour Area, the needs of the labour market have been considered, and the demands that will be set on prospective students, the Faculty, its staff and specialists in civil engineering, have been assessed. Consideration has been given to the fact that the Faculty of Civil Engineering in Rijeka is the only higher education institution in the greater area (the Primorskogoranska County, the Istrian County, and the Lika-Senj County) that educates civil engineering professionals. Due to the present-day intense activity in planning, designing and constructing the infrastructure (transportation systems, housing development, water supply systems, etc.) there is a great need for highly educated professionals in civil engineering. Figures show that there are no unemployed Diploma Engineers and Engineers in Civil Engineering registered with the employment agencies. It is safe to say that the trend toward an intense infrastructure construction will also continue in the years to come (during the process of approach and admission of Croatia to the European Union). In the longer term the need to plan and design new civil engineering structures will be transformed into the need to manage, maintain and reconstruct the infrastructure systems. Therefore part of the curriculum has also been adapted to meet this demand. In the course of structuring the curricula, the Faculty cooperated closely with the related Faculties of Civil Engineering in Croatia. The core curriculum at the Undergraduate Programme Level was brought into tune with the related programmes of the other Faculties of Civil Engineering in Croatia in order to enable student mobility, first and foremost, at the national level. In the course of structuring the undergraduate and graduate programmes, the curricula of respectable foreign institutions that educate professionals of the Engineering of Munich: Technische Universität München-Studienplan für same profile (the University of Engineering of Prague, the University of Studierende des Bauingenieurwesens, Eigenossiche Technische Hochschule Zürich-ETH-Abteilung für Bauingenieurwesen in Zürich), as well as the recommendations of the association of European Faculties of Civil Engineering (European Civil Engineering Education and Training – EUCEET) were analysed. This was performed through coordination inside the TEMPUS Project «Restructuring and Updating of Civil Engineering Curriculum» (in which the 4 Faculties of Civil Engineering from Croatia, along with international experts and scientists, were, and still are, cooperating). The Faculty teachers were actively included in structuring the curricula, and the students were consulted, too. The structure of the study programme was accepted at the Board of the Faculty of Civil Engineering on 21 st December 2004. The scheme adopted for academic programmes according to education cycles is «3+2+3», namely: - Three-year Undergraduate Programme - Two-year Graduate Programme - Three-year Postgraduate Programme. The Academic Undergraduate Programme proposed represents, in its core part, the continuation of the current Academic Graduate Programme. The curriculum is adapted to the standards of the Bologna process and brought up to date in terms of contents and methodology. The Academic Undergraduate Civil Engineering Programme is the necessary first step in the process of educating highly qualified personnel in the civil engineering and other engineering professions.
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
2.
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
GENERAL INFORMATION
2.1. PROGRAMME NAME The name of the programme is: Academic Undergraduate Programme in Civil Engineering. 2.2. PARTY MANAGING AND CARRYING OUT THE STUDY PROGRAMME The party that manages and carries out the proposed programme is the Faculty of Civil Engineering of the University of Rijeka with its basic organisation units: the Chair of Hydraulic Engineering, the Chair of Geotechnical Engineering, the Department of Computer Modelling of Materials and Structures, the Chair of Load Bearing Structures, the Chair of Technical Mechanics, the Chair of Transportation Engineering, the Chair of Construction Organization and Technology and Architecture, the Chair of Mathematics, and the Chair of Physics and other sciences. 2.3. PROGRAMME DURATION The duration of the Academic Undergraduate Programme in Civil Engineering is three (3) academic years, during which students obtain a minimum of 180 ECTS credits. 2.4. PROGRAMME ENTRANCE REQUIREMENTS The right to apply for enrolment on the Academic Undergraduate Programme has a candidate who has completed secondary schooling or has a comparable qualification of at least four years of schooling, or as defined by special Faculty regulations. The citizens of the Republic of Croatia have the right to apply for the programme. Foreign citizens and persons without citizenship have the right of enrolment under the same conditions. The selection of enrolment applicants for the Academic Undergraduate Programme is made on the basis of secondary school marks (overall mark, marks in mathematics and physics) and results of compulsory (Mathematics) and elective (Physics or Chemistry or Informatics) of the state high-school exit exam. 2.5. COMPETENCES ACQUIRED BY THE STUDENT WITH COMPLETION OF THE PROGRAMME With completion of the Academic Undergraduate Programme the student acquires the fundamental competences for the planning and design of structures as well as basic knowledge that enables him/her to attend Graduate and Postgraduate Programmes in Civil Engineering or related fields as well as various programmes of lifelong learning. During his/her studies the student develops the ability to communicate and inform the interested experts and the public about the problems and solutions connected with the civil engineering profession. He is able, upon analysis, to form an opinion on specific civil engineering issues from the viewpoint of the profession and social usefulness, for example environmental protection. He is qualified for structural designs in concrete, timber and steelwork and for taking part in planning and designing hydraulic and transportation systems and structures. He is qualified for independent design of simpler structures or components of complex structures, construction management and supervision of the construction of simpler civil engineering structures and building construction. The knowledge and competences the student acquires with completion of the Academic Undergraduate Programme are sufficient to attend an Academic Graduate Programme and a Specialisation Programme at the Faculty of Civil Engineering (the proposing party) as well as to attend the same or similar programmes at other Faculties of Civil Engineering in the Republic of Croatia. The acquired fundamental knowledge enables the student to attend graduate programmes of other related engineering programmes. 2.6. ACADEMIC TITLE OR DEGREE ACQUIRED ON COMPLETION OF THE PROGRAMME According to the proposed study programme, the academic title or degree acquired on completion of the Academic Undergraduate Programme is Bachelor (baccalaureus) of science in civil engineering (univ. bacc. ing. aedif.)
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
3.
PROGRAMME DESCRIPTION
3.1.
LIST OF MANDATORY AND OPTIONAL COURSES FOR THE PROPOSED UNDERGRADUATE STUDY PROGRAMME IN CIVIL ENGINEERING
List of mandatory courses
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32.
Course code M-178 M-183 TM-147 M-179 M-180 FD-198 TM-145 TM-148 P-164 OA-157 FD-195 FD-196 FD-793 M-181 TM-146 G-104 TM-150 MK-123 H-117 G-106 TM-149 H-115 P-165 MK-124 NK-135 NK-136 H-118 OA-147 G-107 OA-148 OA-149 ZR-PRED
Mandatory Course Linear Algebra Mathematical Analysis I Mechanics I Computers and Information Science Constructive Geometry Physics Strength of Materials I Mechanics II Geodesy Civil Engineering Structures The English Language The German Language Physical Training and Health Culture Mathematical Analysis II Strength of Materials II Applied Geology Structural Mechanics I Structure and Characteristics of Materials Hydrology Soil and Rock Mechanics Structural Mechanics II Fluid Mechanics Introduction to Road Design Engineering Materials Basics of Concrete Structures Introduction to Steel Structures Introduction to Hydraulic Engineering Construction Management and Technology Geotechnical Engineering Construction Economics Fieldwork Final Year Project
Hours of active classes (L+E+S) 30+30+0 45+45+0 30+30+0 30+25+5 45+15+30 45+15+0 30+30+0 30+30+0 30+15+0 30+15+0 30+0+30 30+0+30 0+30+0 45+45+0 30+30+0 30+5+0 45+30+0 30+0+0 30+15+0 45+20+10 45+30+0 30+30+0 30+30+0 30+30+0 45+30+0 30+30+0 30+30+0 45+30+0 45+30+0 30+15+0 0+30+0 0+0+30
ECTS 6.0 7.5 5.5 4.0 6.0 4.5 5.5 5.5 3.5 4.0 3.5 3.5 1.0 7.5 5.5 3.0 6.5 2.5 3.0 5.5 6.5 5.5 4.5 5.0 6.0 5.0 5.0 6.0 6.0 4.0 3.0 5.0
For students some sports and recreational activities coordinated through the course Physical Training and Health Culture are organized.
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
List of Optional Courses
33. 34. 35. 36. 37. 38. 39. 40. 41. 42. 43. 44. 45. 46. 47. 48. 49. 50. 51.
Course Code
Optional Course
M-182 M-184 M-177 FD-193 FD-199 OA-154 FD-197 OA-144 OA-143 MK-122 G-108
Engineering Geometry Computer Applications Introduction to Programming Communication Skills Introduction to Language Culture Construction History Building and Constructing English Introduction to Spatial Planning Building Design Introduction to Building Physics Environmental Protection
Hours of Active Classes (L+E+S) 10+0+20 10+10+10 10+20+0 15+15+0 15+15+0 15+0+15 10+10+5 30+0+15 15+30+0 20+0+10 15+0+15
OA-155 OA-156
Management in Civil Engineering Civil Engineering Regulations
30+0+15 30+0+0
3.0 3.0
NK-134 NK-137 H-119 H-114 P-167 P-163
Bridges Introduction to Timber Structures Introduction to Coastal Engineering Water Resources and Systems Urban Roads and Intersections Railway Design
30+15+15 30+30+0 30+30+0 30+0+30 30+30+0 45+15+0
5.0 5.0 5.0 5.0 5.0 5.0
ECTS 3.0 3.0 3.0 2.0 2.0 2.0 2.0 3.0 3.0 2.0 2.0
3.2. COURSE DESCRIPTION Explanation of ECTS credits, the quality assessment and the courses delivery success are given in chapters 3.2.2. and 3.2.3. for all subjects. 3.2.1.
Description of mandatory and optional courses
Student assessment Note (1) – Article 43 of Decision of Amendments of Regulations on Studies from May 3 rd 2005 (Class: 003-01/0501/07, Reg. No.: 2170-57-01-05-8) from November 6th 2007 Assessment within the European Credit Transfer System (1) Student accomplishment in each course is assessed with ECTS grading scale in percentage from 0 to 100%, whereat for the passing grade at the undergraduate studies a student must not score less than 40% and at graduate studies less than 50%. (2) Student evaluation and assessment for each course (module) is during classes and at the final exam as follows: - total percentage of student accomplishment during classes (attendance, partial exams, preliminary exams and other activities defined by the study program) makes up to 70% of the grade and - total percentage of student accomplishment at the final exam makes up to 30% of the grade. Note (2) – Article 43a, paragraph 3 of Decision of Amendments of Regulations on Studies from May 3rd 2005 (Class: 003-01/05-01/07, Reg. No.: 2170-57-01-05-8) from November 6th 2007 (3) The students attending courses where a numerical grade is not awarded, as defined by the study program, are given by the professors the allotment “all the requirements met” if they have scored 40 or more credits at the university undergraduate studies or 50 or more credits at university postgraduate studies.
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
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ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Enrollment into courses taught in the second and the subsequent study years is defined by Article 34 of Amendments of Regulations on Studies of University of Rijeka or by study prerequisites pursuant to article e.3.2.1 of this study program.
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
Course:
LINEAR ALGEBRA
Course code: M-178 Course status: mandatory
Pre-requisites:
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
The course consists of: lectures exercises
-
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 6.0
Course objectives
Students will: - become familiar with the concepts such as scalar product, vector product, matrix, inverse matrix, determinant, linear independence, eigenvalue, and eigenvector, - learn to solve linear systems by the Gauss elimination method, - deepen their knowledge about conic sections and quadratic surfaces.
Syllabus
The concept of a vector. Magnitude and direction. Addition and subtraction of vectors. Multiplication by a scalar. Coordinate systems in 2D and 3D. Left-handed and right-handed coordinate systems. The angle between two vectors. The scalar product. Projection of a vector onto another vector. The vector product. The scalar triple product. The definition of a matrix. Examples of matrices. The transpose. Addition of matrices. Multiplication by a scalar. Multiplication of matrices. Inverse of a matrix. The determinant. Properties of determinants. The determinant of a product. The adjoint and inverse matrices. Linear independence of rows (or columns) of a matrix. Rank of a matrix. Elementary row operations. Reduced form of a matrix. Computation of the inverse by the Gauss-Jordan elimination. Linear systems. Gauss elimination. Cramer's rule. Homogeneous linear systems. The characteristic polynomial. Eigenvalues and eigenvectors of a matrix. Quadratic forms. Transformation to principal axes. Conic sections and quadratic surfaces.
Student obligations
Attending lectures and exercises.
Exam
The exam is taken in written form.
Assessment (1)
Preliminary exams (70%), written exam (30%). Essential: 1. Notes taken at the classes. 2. Elezović, N.: Linearna algebra, 3. izdanje, Element, Zagreb, 2003.
Literature
Recommended: 1. Jordan, D.W. and Smith, P.: Mathematical Techniques, 3rd edition, Oxford University Press, Oxford, 2002. 2. Došlić, T.; Sandrić, N.: Matematika 1, skripta, Građevinski fakultet, Sveučilište u Zagrebu, 2007. 3. Elezović, N.; Aglić, A.: Linearna algebra - zbirka zadataka, 3. izdanje, Element, Zagreb, 2003. 4. Devidé, V.: Riješeni zadaci iz više matematike s kratkim repetitorijem definicija i teorema, Svezak 1, Školska knjiga, Zagreb, 1989.
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
MATHEMATICAL ANALYSIS I
Course code: M-183 Course status: mandatory
Pre-requisites:
Course objectives
The course consists of: lectures exercises
-
Hours of Active Classes: 90 lectures: 45 exercises: 45 seminars: 0 ECTS: 7.5
Students will revise their knowledge of high-school mathematics, and will learn: - to compute limits, derivatives, integrals and Taylor series, - to use derivatives and integrals to: sketch a graph of a function, compute the area of a plane figure, compute the volume and area of a solid of revolution, compute the length of a graph, - to approximate functions by means of Taylor (and some other) polynomials.
Syllabus
Basic notions about sets, relations, functions and operations. Natural numbers, integers, rational, real and complex numbers. Sequence, limit of a sequence. The number e. Number line, coordinate systems. Definitions and properties of polynomials, rational functions, trigonometric and area functions, exponential and logarithmic functions as well as hyperbolic and area functions. Limit and continuity of a function. The derivative. Rules of differentiation. Sketching a graph of a function: asymptote, minimum, maximum, point of inflection, intervals of increase and decrease, intervals of upward concavity and downward concavity. Numerical solution of equations. Functions of two variables. Partial derivatives. Extrema and restricted extrema. The antiderivative. The indefinite integral and its properties. Systematic techniques for integration. The definite integral, its properties and applications. Improper integrals. Numerical integration. Series of numbers. Convergence. The Taylor series and the Fourier series.
Student obligations
Attending lectures and exercises.
Exam
The exam is taken in a written form.
Assessment (1)
Preliminary exams (70%), written exam (30%). Essential: 1. Notes taken at the classes. 2. Javor, P.: Matematička analiza 1, 2. izdanje, Element, Zagreb, 2003.
Literature
Recommended: 1. Došlić, T.; Sandrić, N.: Matematika 1, skripta, Građevinski fakultet, Sveučilište u Zagrebu, 2007. 2. Štambuk, Lj.: Matematika 1, Tehnički fakultet, Sveučilište u Rijeci, Rijeka, 2002. 3. Anton, H.: Calculus - A New Horizon, 6th edition, John Wiley and Sons, Inc., New York, 1999. 4. Demidovič, B.P. i suradnici: Zadaci i riješeni primjeri iz matematičke analize za tehničke fakultete, Golden marketing - Tehnička knjiga, Zagreb, 2003. 5. Bronštejn, I.N. i suradnici: Matematički priručnik, Golden marketing - Tehnička knjiga, Zagreb, 2004.
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
Course:
MECHANICS I
Course code: TM-147 Course status: mandatory
Pre-requisites:
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
The course consists of: lectures exercises
-
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 5.5
Course objectives
1. To understand the laws of rigid-body statics under the action of 2D and 3D central and general force systems. 2. To learn how to apply these laws in order to determine the reactions and cross-sectional forces and moments in simple beam-like structures. 3. To acquire the necessary skills for the courses Mechanics 2 and Strength of Materials.
Syllabus
Basic concepts of Mechanics. Vectors and vector spaces. 2D and 3D central force systems. Equilibrium of the central force system; equilibrium of the material particle. 2D and 3D general force systems. The moment of force. Parallel forces. Force couple. Reduction of a system to the force and moment at a given point. Equilibrium of the general force system; equilibrium of a rigid body. Basic types of structures. Supports and reactions. Trusses and forces in truss members. Beams. Constant distributed load. Cross-sectional forces and their diagrams. Statically determinate and indeterminate systems. Beams and frames with hinges and diagrams of cross-sectional forces in such structures. Relations between the cross-sectional forces and the maximum bending moment. Coulomb´s friction. Introduction to the principle of virtual work.
Student obligations
Understanding of the course material is periodically checked via preliminary exams, the results of which are being added to the results of the written exam.
Exam
The exam is taken in written form.
Assessment (1)
Preliminary exams (70%), written exam (30%). Essential: 1. Andrejev, V.: Mehanika -- 1. dio: Statika, Tehnička knjiga, Zagreb, 1968. 2. Damić, V.: Statika, Hrvatska sveučilišna naklada, Zagreb, 1999 (953-169-045 6)
Literature
Recommended: 1. Beer, F.P.; Johnston, E.R., Jr.: Vector Mechanics for Engineers – Statics, McGraw-Hill, Singapore , 1990 (0-07-100454-8) 2. Pytel, A.; Kiusalaas, J.: Engineering Mechanics – Statics, Harper Collins, New York, 1996 (0-673-998703) 3. McLean, W.G.; Nelson, E.W.: Engineering Mechanics (Schaum's Outline Series), McGraw-Hill, New York, 1962 (07-044812-4) 4. Stanek, M.; Turk, G.: Statika I, Univerza v Ljubljani, Fakulteta za gradbeništvo in geodezijo, Ljubljana, 1996 (961-6167-07-3) 5. Matejiček, F. Semenski, D, Vnučec, Z. Uvod u statiku sa zbirkom zadataka, Golden marketing – Tehnička knjiga, Zagreb, 2005 (953-6168-88-X)
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
COMPUTERS AND INFORMATION SCIENCE
Course code: M-179 Course status: mandatory
Pre-requisites: The course consists of: lectures exercises
seminars
Hours of Active Classes: 60 lectures: 30 exercises: 25 seminars: 5 ECTS: 4.5
Course objectives
The course gives a systematic overview of some important fields of computer and information science, students gain the ability to use networked computers autonomously as the tools to solve engineering problems
Syllabus
- history of computers - computer architechture - computer operating systems - definition, basic functions, comparision of operating systems, computer networks - computer communications and network services - local and global networks, Internet - Universal software tools in Windows environment (text processor, spread sheet, presentation software) - programming languages - machine languages, assemblers, high level languages, compilers, algorithm, program documentation, HTML, JAVA - software packages for engineers - computers in civil engineering: present state of and future trends Exercises: practical work on computers, the examples relating to the teaching materials are presented
Student obligations
All of the given tasks on the computer and seminar must be made.
Exam
The exam is taken in written form.
Assessment (1)
Preliminary exams (70%), written exam (30%).
Literature
Essential: 1. course materials presented on the web site www.gradri.hr/~informatika 2. the relevant web site addresses presented on the course web site 3. Grundler, Darko: Primijenjeno računalstvo, Graphis, Zagreb, 2000 4. Čerić, V.; Varga, M. i dr.: Poslovno računarstvo, Znak, Zagreb 1998. Recommended: 1. Blissmer, Robert H.: Introducing computers. John Wiley & Sons, Inc., 1996
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
CONSTRUCTIVE GEOMETRY
Course code: M-180 Course status: mandatory
Pre-requisites: The course consists of: lectures excercises
seminars
Hours of Active Classes: 90 lectures: 45 exercises: 15 seminars: 30 ECTS: 6.0
to develop space perception ability to learn fundamental principles of computer graphics in 3D and descriptive geometry to develop constructive problem solving skills in 3D and representing in projections to introduce geometrical thinking and creative approach to the use of CAD in 3D to acquire fundamental principles of geometric computer modelling
Course objectives
-
Syllabus
- introduction to visual communication; basic elements in geometry and graphics - Monge's-projection and descriptive geometry; use in CAD-systems - additional views in classic and CAD technology: metric and position-problem solving, the use of 3D computer graphic - geometric transformations - conics - properties and use - rotating 2D objects (plane figure) in 3D space (use of afine transformation and CAD) - geometric forms of solids; regular polyhedra, 3D- primitives in CAD - irregular solids. Tangent plane. - axonometry, use in CAD - solid -cutting plane. Intersections of line and solid. - basic of solid-intersections and Boolean operations on 3D primitives - basics of quoted projections; terrains
Student obligations
- course attendance - active collaboration - seminars - accepted project work before the end of the term
Exam
Written and oral exam. Part of the exam can be taken using the computer.
Assessment (1)
Seminar, presentation of seminar, programme work and preliminary exams (70%), written exam (30%). Essential: 1. Pletenac, Lidija: Konstruktivna geometrija u CAD-u, elektronički udžbenik-skripta 2. Niče, dr. Vilko: Deskriptivna geometrija I i II, Školska knjiga, Zagreb, 1992. 3. Babić; Gorjanc; Sliepčević; Szirovicza: Konstruktivna geometrija, IGH, Zagreb, 2000. 4. Internet stranice http://master.grad.hr/nastava/geometrija/ http://gradri.hr/~pletenac/
Literature
Recommended: 1. Brauner, Kickinger: Geometrija u graditeljstvu, Školska knjiga, Zagreb, 1980. (prevele Kurilj, Hajsig) 2. Giering, Dr. Osvald; Seybold, Dr. Hans: Konstruktive Ingenieurgeometrie, Carl Hanser Verlag, München, Wien, 1987. 3. Hohenberg, Fritz: Konstruktive Geometrie in der Technik, Wien,1961. 4. Pal, Imre: Nacrtna geometrija u anaglifskim slikama, Tehnička knjiga, Zagreb,1966. (preveo Dr. Niče) 5. Priručnik za DesignCAD (on line)
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
Course:
PHYSICS
Course code: FD-198 Course status: mandatory
Pre-requisites:
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
The course consists of: lectures exercises
-
Hours of Active Classes: 60 lectures: 45 exercises: 15 seminars: 0 ECTS: 4.5
Course objectives
The main goal of the course is to help understanding in basic physical laws in which the knowledge of computer use will be required.
Syllabus
Idea of space and time. Basic forces in nature. Mechanical oscillations. Harmonic, damped and enforced oscillator. Internal energy and heat. Thermodynamical laws. Entropy. Surface phenomena. Capillarity. Diffusion. Elastic waves. Sounds. Solid deformation. Elastic and plastic properties. Hook´s law. Torsion. Electric and magnetic interaction. Electromagnetic waves and nature of light. Law of heat radiation. Periodic system of elements. Radioactivity. Molecular forces. Crystal lattice.
Student obligations
Students are obliged to attend lessons and take preliminary exams.
Exam
The exam is written in which, apart from solving problems, the knowledge of theory is required.
Assessment (1)
Preliminary exams (70%), written exam (30%). Essential: 1. Kilić, S.: Fizika I, Fakultet građevinskih znanosti u Splitu, 1986. 2. Cindro, N.: Fizika II, Školska knjiga, Zagreb, 1984.
Literature Recommended: 1. Cindro, N. Fizika I, Školska knjiga, Zagreb, 1981.
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UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
STRENGTH OF MATERIALS I
Course code: TM-145 Course status: mandatory
Pre-requisites: The course consists of: lectures exercises
-
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 5.5
Course objectives
1. To understand the physical meaning of stresses and strains and their role in uniaxial and simple states of equilibrium and kinematics of deformable media. 2. To learn how to solve such problems in mechanics of deformable media where uniaxial or simple stress states take place. 3. To acquire necessary skills for the courses Strength of Materials 2, Structural Mechanics 1, Materials 1, Steel Structures, Concrete Structures and Timber Structures.
Syllabus
1. Uniaxial stress-strain state. Linear elasticity. 2. Governing equations of elasticity (equilibrium, kinematic, constitutive). Bar problems. 3. Pure bending. Geometric properties of cross-sections. 4. Force-induced bending. 3D bending. 5. Bending due to axial force. 6. Bernoulli´s theory of beams. 7. Differential equation of deformation of a bent beam. 8. Beam on elastic foundation. 9. Mohr's analogy. 10. Pure shear. Design of bolts and rivets. 11. Pure torsion. Statically indeterminate torsion problems. 12. Introduction to geometric non-linearity. Stability of equilibrium states. 13. Buckling. 14. Introduction to material non-linearity. 15. Elastic-plastic bending.
Student obligations
Understanding of the course material is periodically checked via preliminary exams, the results of which are added to the results of the written exam.
Exam
The exam is taken in written form.
Assessment (1)
Preliminary exams (70%), written exam (30%). Essential: 1. Šimić, V. Otpornost materijala 1 i 2, Školska knjiga, Zagreb, 1992, 2002 2. Brnić, J, Turkalj, G. Nauka o čvrstoći 1 i 2, Tehnički fakultet Sveučilišta u Rijeci, 2004, 2006
Literature
Recommended: 1. Alfirević, I. Nauka o čvrstoći I, Tehnička knjiga, Zagreb, 1995 2. Bazjanac, D. Nauka o čvrstoći, Tehnička knjiga, Zagreb, 1973 3. Rašković, D. Otpornost materijala, Građevinska knjiga, Beograd, 1985 4. Timošenko, S. Otpornost materijala 1 i 2, Građevinska knjiga, Beograd, 1972, 1966 5. Brčić, V. Otpornost materijala, Građevinska knjiga, Beograd, 1982 6. Stanek, M.; Turk, G.: Osnove mehanike trdnih teles, Univerza v Ljubljani, Fakulteta za gradbeništvo in geodezijo, Ljubljana, 2003 7. Beer, F.P, Johnston, E.R. Mechanics of materials, McGraw-Hill, London, 1992 8. Benham, P.P, Crawford, R.J. Mechanics of engineering materials, Longman, Harlow, 1988
14
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
Course:
MECHANICS II
Course code: TM-148 Course status: mandatory
Pre-requisites:
Course objectives
Syllabus
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
The course consists of: lectures exercises
-
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 5.5
1. To understand Newton´s laws of dynamics in cases of motion of particles and rigid bodies. 2. To learn fundamental principles of Lagrange´s analytical dynamics. 3. To learn how to apply these principles to simple problems of engineering dynamics and theory of oscillation. 4. To acquire necessary skills as a pre-requisite for the course Hydromechanics. Newton´s laws of dynamics. Equations of motion. Kinematics of a particle. Position, velocity and acceleration as vectors. Kinematics of curvilinear motion. Choice of the observer and the co-ordinate system. Dynamics of curvilinear motion of the material particle. Central force system. Impulse of the force and momentum. Angular momentum. Work and power. Laws of dynamics as applied to rigid bodies. Euler´s equations and moments of inertia. 2D motion of the rigid body. Angular momentum around a principal axis of inertia. 3D motion of the rigid body. Equler´s angles and rotation of the Earth. Free and forced undamped and damped oscillations of the material particle. Dynamics of the systems of material particles. Eigenvalue problem. Principle of virtual work in dynamics. Action integral and Hamilton´s principle. Lagrange´s equations and their application to the systems of concentrated masses and springs. Introduction to the dynamics of deformable bodies. Cauchy´s equations of motion.
Student obligations
Understanding of the course material is periodically checked via three preliminary exams, the results of which are being added to the results of the written exam.
Exam
The exam is taken in written form.
Assessment (1)
Preliminary exams (70%), written exam (30%). Essential: 1. M. Krpan, A. Franulović, M. Butković, R. Žigulić, S. Braut, Dinamika – Teorija i primjena, Sveučilište u Rijeci, Tehnički fakultet, Rijeka, 2001.
Literature
Recommended: 1. Beer, F.P.; Johnston, E.R., Jr.: Vector Mechanics for Engineers – Dynamics, McGraw-Hill, Singapore, 1990 (0-07-100455-6) 2. Pytel, A.; Kiusalaas, J.: Engineering Mechanics – Dynamics, Harper Collins, New York, 1996 3. Čaušević, M.: Tehnička mehanika -- Kinematika, Školska knjiga, Zagreb. 4. Kiričenko, A.: Tehnička mehanika -- II dio: Kinematika, Sveučilišta u Osijeku i Zagrebu. 5. Kiričenko, A.: Tehnička mehanika -- III dio: Dinamika, Sveučilište u Zagrebu 6. Jecić, S.: Mehanika II -- Kinematika i dinamika, Tehnička knjiga, Zagreb
15
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
GEODESY
Course code: P-164 Course status: mandatory
Pre-requisites:
Course objectives
Understanding and learn basic terminology of land surveying
Syllabus
1. 2. 3. 4. 5. 6. 7.
Student obligations
Course attendance. Obligatory project work.
Exam
Written and oral exam
Assessment (1)
Preliminary exams (70%), written exam (30%).
The course consists of: lectures exercises
-
Hours of Active Classes: 45 lectures: 30 exercises: 15 seminars: 0 ECTS: 3.5
basic concepcts of surveying vertikal control distance angles position control surveys satellite positioning
Essential: 1. Macarol, S.: Praktična geodezija, Tehnička knjiga, Zagreb, 2. Pribičević B., Medak D.:Geodezija u građevinarstvu, V.B.Z. d.o.o. Zagreb 2003. Literature
Recommended: 1. Janković, M.: Inženjerska geodezija I i II 2. Kapetanović N., Selesković F.: Geodezija, Univerzitetska knjiga, Sarajevo 3. Schofield W.: Engineering surveying, Butterworth Heinemann 2001.
16
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
CIVIL ENGINEERING STRUCTURES
Course code: OA-157 Course status: mandatory
Pre-requisites:
Course objectives
Development of general and specific knowledge in the field of design and construction of buildings.
Syllabus
1. 2. 3. 4. 5. 6. 7. 8.
Student obligations
Attendance to the course has to be in accordance to the University/Faculty regulations. Practical - project work.
Exam
Written and oral exam
Assessment (1)
-
Literature
The course consists of: lectures exercises
-
Hours of Active Classes: 45 lectures: 30 exercises: 15 seminars: 0 ECTS: 4.0
Project descriptive documentation, detailed drawings Foundations Hidro and thermo isolations Walls of stone, brick,composite walls Floors (concrete,wood,iron) Roofs of wood,concrete,prefabricated Doors and windows Elements of final sistemation works
Active participation in class, making of programme and preliminary exams (70%), Written and oral exam (30%).
Essential: 1. Đ.Peulić: Konstruktivni elementi zgrada I i II, Tehnička knjiga Zagreb, 2003. 2. Neufert: Elementi arhitektonskog projektiranja, Golden marketing, Zagreb 2002. 3. M.Mitag: Građevinske konstrukcije 4. Proizvodni programi građevinske opreme 5. Katalog detalja za studente pripremljen kao skripte. 6. Z.Vrkljan: Oprema građevnih nacrta, Zagreb 1965. Recommended: 1. Novi proizvodni programi, izvor: internet..
17
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
THE ENGLISH LANGUAGE
Course code: FD-195 Course status: mandatory
Pre-requisites:
Course objectives
Syllabus
The course consists of: lectures -
seminars
Hours of Active Classes: 60 lectures: 30 exercises: 0 seminars: 30 ECTS: 3.5
The student is expected to develop communicative competence, namely the ability to understand and produce English in speech and writing.
Grammar themes (the general grammar rules of the English language, the grammar structures specific to the language of the engineering profession and the similarities and differences in grammar structures between English and Croatian) at the levels of: - word-formation - morphology (parts of speech, morphological changes) - syntax (sentence types, sentence elements, word order; use and sequence of tenses; active-passive relation; infinitive and participle clauses). Lexical themes: - general vocabulary - technical and vocational terminology (mathematics, information technology, geodesy, construction materials, building construction, soil mechanics, foundations, transportation engineering, bridges, tunnels, hydraulic works).
Student obligations
- Attendance to the course as defined by the Faculty regulations. - Two written tests and one oral test. The scores obtained at the tests are added together (each written test is worth 30% and the oral test 40% scores). The condition for obtaining credits is 40% of total points
Exam
none
Assessment (1)
Activity in class, homework, preliminary exams (100%). Essential: 1. Texts used in lectures and exercises 2. Any grammar of English language
Literature
Recommended: 1. Prager, A.: Trojezični građevinski rječnik, Zagreb: Masmedia, 2003. 2. Thomson / Martinet vježbenica gramatičkih struktura. OUP, 1999. 3. Bujas, Ž.: Veliki englesko-hrvatski rječnik, Zagreb: Nakladni zavod Globus, 1999. 4. Bujas, Ž.: Veliki hrvatsko-engleski rječnik, Zagreb: Nakladni zavod Globus, 1999.
18
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
THE GERMAN LANGUAGE
Course code: FD-196 Course status: mandatory
Pre-requisites:
Course objectives
Syllabus
The course consists of: lectures -
seminars
Hours of Active Classes: 60 lectures: 30 exercises: 0 seminars: 30 ECTS: 3.5
The student is expected to develop communicative competence, namely the ability to understand and produce German in speech and writing.
Grammar themes: - Broadening prior knowledge of general grammar rules of the German language. - Teaching the grammar structures specific to the language of the engineering profession. - Dealing with grammar problems at the levels of word-formation, morphology (parts of speech, morphological changes) and syntax (sentence types, sentence elements, word order; use and sequence of tenses; active-passive relation; infinitive and participle clauses). - Defining the similarities and differences in grammar structures between German and Croatian. Lexical themes: - general vocabulary - technical and vocational terminology (mathematics, information technology, geodesy, construction materials, building construction, soil mechanics, foundations, transportation engineering, bridges, tunnels, hydraulic works).
Student obligations
- Attendance to the course as defined by the Faculty regulations. - Two written tests and one oral test. The scores obtained at the tests are added together (each written test is worth 30% and the oral test 40% scores). The condition for obtaining credits is 40% of total points
Exam
none
Assessment (1)
Activity in class, homework, preliminary exams (100%). Essential: 1. Texts used in lectures and exercises 2. Any grammar of German language
Literature Recommended: 1. Prager, A.: Trojezični građevinski rječnik, Zagreb: Masmedia, 2003. 2. T. Engler: vježbenica njemačke gramatike, Školska knjiga, 2002.
19
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
PHYSICAL TRAINING AND HEALTH CULTURE
Course code: FD-793 Course status: optional
Pre-requisites:
Hours of Active Classes: lectures: exercises: ECTS:
The course consists of: exercises
-
seminars: 1.0
Course objectives
Objective of the Course is to provide by physical training such an educational which will stimulate student's curiosity, improve their intellectual development and prepare them for their professional competence. Physical training develops their abilities to be successful in various scientific fields.
Syllabus
Group or individual exercises (fitness, tennis, swimming, climbing etc), but depending on the material and financial possibilities of the Faculty to provide necessary and adequate means.
Student obligations
Presence to the activities to be recorded by lecturer's signature
Exam
Not applicable
Assessment (2)
Not applicable Essential: Not obligatory
Literature Recommended: Literature related to the sports specified in Syllabus
20
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
MATHEMATICAL ANALYSIS II
Course code: M-181 Course status: mandatory
Pre-requisites: Mathematical analysis I The course consists of: lectures exercises
Course objectives
The main goal of the course is to help students understanding in differential equations and basic principals of statistics.
Syllabus
Arc length. Multiple integrals with applications. Derivation and integration under integral. Real functions of several real variables. Partial derivation. Vector analysis, gradient, divergence, rotation. Line integrals. Surface integrals. Differential equations. Cauchy problem. Linear differential equations. Systems of linear differential equations. Numerical solve of differential equations. Partial differential equations. Fourier method. Method of separation of variables. Power series solutions. Wave equation. Diffusion equation. Variation princip. Numerical solve of partial differential equations. Method of discrete variation. Eigenvalue problem. Principal statistical values. Stochastic processes. Correlations function. Statistical tests with applications.
Student obligation
Students are obliged to attend lessons and to make seminar.
Exam
The exam is written in which, apart from solving problems, the knowledge of theory is required.
Assessment (1)
Preliminary exams (70%), written exam (30%).
Literature
-
Hours of Active Classes: 90 lectures: 45 exercises: 45 seminars: 0 ECTS: 7.5
Essential: 1. Kurepa, S.: Matematička analiza 1, Školska knjiga, 1975. 2. Kurepa, S.: Matematička analiza 2, Školska knjiga, 1975. 3. B. Apsen, B.: Riješeni zadaci više matematike 1, 2, 3, Tehnička knjiga, Zagreb, 1989. 4. Demidović, B.P.: Zadaci i riješeni primjeri iz više matematike, Tehnička knjiga , Zagreb, 1989. Recommended: 1. Kurepa, S.: Matematička analiza 3, Školska knjiga, 1975
21
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
STRENGTH OF MATERIALS II
Course code: TM-146 Course status: mandatory
Pre-requisites: Strength of Materials I The course consists of: lectures exercises
Course objectives
1. To understand tensorial character of stress and strain andbehaviour of a linear elastic material in 2D and 3D states of stress and strain 2. To learn how to solve 2D and 3D problems in mechanics of deformable media. 3. To acquire necessary skills for the courses, Structural Mechanics 2, Soil and rock mechanics, Fluid mechanics, Steel Structures, Concrete Structures and Timber Structures.
Syllabus
1. Introduction to 2D and 3D stress states. Stress vector. 2. Equilibrium equations. Stress tensor. 3. Principal stresses. Mohr´s circle. 4. Kinematic equations. Strain tensor. 5. Constitutive equations. Linear elastic material. 6. Shear stresses in beams. 7. General state of stress in beams. 8. Timoshenko´s theory of beams. 9. Saint Venant´s torsion. Torsion of non-circular cross-sections. 10. Shear stresses in thin-walled cross-sections. Shear centre. 11. Strain energy. Maxwell and Betti theorems. 12. Castigliano´s theorems. 13. Yield stress. 14. Equivalent stress according to different theories. 15. Yield-state design.
Student obligations
Understanding of the course material is periodically checked via preliminary exams, the results of which are added to the results of the written exam.
Exam
Written exam.
Assessment (1)
Preliminary exams (70%), written exam (30%).
-
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 5.5
Essential: 1. Šimić, V. Otpornost materijala 1 i 2, Školska knjiga, Zagreb, 1992, 2002 2. Brnić, J, Turkalj, G. Nauka o čvrstoći 1 i 2, Tehnički fakultet Sveučilišta u Rijeci, 2004, 2006
Literature
Recommended: 1. Alfirević, I. Nauka o čvrstoći I, Tehnička knjiga, Zagreb, 1995 2. Bazjanac, D. Nauka o čvrstoći, Tehnička knjiga, Zagreb, 1973 3. Rašković, D. Otpornost materijala, Građevinska knjiga, Beograd, 1985 4. Timošenko, S. Otpornost materijala 1 i 2, Građevinska knjiga, Beograd, 1972, 1966 5. Brčić, V. Otpornost materijala, Građevinska knjiga, Beograd, 1982 6. Srpčič, S.: Mehanika trdnih teles, Univerza v Ljubljani, Fakulteta za gradbeništvo in geodezijo, Ljubljana, 2003 7. Beer, F.P, Johnston, E.R. Mechanics of materials, McGraw-Hill, London, 1992 8. Benham, P.P, Crawford, R.J. Mechanics of engineering materials, Longman, Harlow, 1988
22
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
APPLIED GEOLOGY
Course code: G-104 Course status: mandatory
Pre-requisites: Constructive geometry The course consists of: lectures excercises
Course objectives
Preparing students for basic understanding geological fabric and dynamic of the Earth and aspects of geology that are relevant in civil engineering. Students should be able to identify and describe common rocks and soil. The course prepares students for supplementary courses in geotechnics, hydrotehnics and environmental protection.
Syllabus
Origine, structure and dynamics of the Earth Minerals and their physical and chemical properties Igneous, sedimentary and metamorphic rocks Deformation of rock: folding and faulting Earthquakes and seismtectonic activity Geologic time and stratigraphic geology Geological fabric of Republic of Croatia Groundwaters and their dynamics Weathering of rocks and soil formation Geomorfological processes Using of rock and soils in construction Site investigations and geological mapping
Student obligations
Course attendance Preliminary exam
Exam
The exam is taken in written form.
Assessment (1)
Preliminary exams (70%), written exam (30%).
-
Hours of Active Classes: 35 lectures: 30 exercises: 5 seminars: 0 ECTS: 3.0
Essential: 1. Lectures in Applied Geology, www.gradri.hr 2. Šestanović, S.: Osnove geologije i petrografije. IV izdanje. Građevinski fakultet Sveučilišta u Splitu, 2001. Literature
Recommended: 1. Tišljar, J.: Petrologija s osnovama mineralogije. Rudarsko-geološko-naftni fakultet Sveučilišta u Zagrebu, 1999. 2. Šestanović, S.: Osnove inženjerske geologije-primjena u graditeljstvu. Geoing, Split 1993. 3. Pollak, Z.: Hidrogeologija za građevinare. Poslovna knjiga, Zagreb, 1995. 4. Benac, Č.: Rječnik geoloških pojmova, www.gradri.hr
23
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
STRUCTURAL MECHANICS I
Course code: TM-150 Course status: mandatory
Pre-requisites: Mechanics I The course consists of: lectures exercises
Course objectives
At the end of the course unit the student is expected to be able to prepare statical calculation of line statically determinate constructions of engineering structures under unmovable and movable loads.
Syllabus
Types of structures. Types of loads. Concept of structure. Kinematic and static stability of structures. Equations of statics. Principles of virtual work, minimum potential energy, superposition, symmetry and antisymmetry. Application of static methods for the calculation of various statically determinate constructions: simply supported beam, cantilever beam, overhanging beams, combined beams (Gerber’s beams), indirectly loaded girders, frames. Plane and space trusses: types of trusses and calculation methods (methods of joints, methods of sections, method of changing bars). Three-hinged systems. Supported and reinforced beams. Application of kinematic methods for the calculation of statically determinate constructions. Influential functions and influential lines. Use of influential lines. Determination of influential lines on the simple and complex girders. Procedures of determination of displacements in statically determinate constructions. Method of the unit load.
Student obligations
- course attendance: min. 70% hours of lectures and exercises - preliminary exams: obligatory - accepted project work before the oral exam
Exam
Written exam and oral exam.
Assessment (1)
Preliminary exams, project work, lectures´ attendance (70%), written exam (30%).
-
Hours of Active Classes: 75 lectures: 45 exercises: 30 seminars: 0 ECTS: 6.5
Essential: 1. Simović. V.: Građevna statika I, Građevinski institut, Zagreb, 1988. 2. Kozulić, V.: Separati s predavanja (WEB stranica predmeta) Literature
Recommended: 1. Werner, H.: Tehnička mehanika, Građevinski fakultet, Zagreb, 1986. 2. Timošenko, S.; Jang, D.H.: Statika inženjerskih konstrukcija, Građevinska knjiga, Beograd, 1956. 3. Đurić, M.: Statika konstrukcija, Građevinska knjiga, Beograd, 1979. 4. Wagner, W.; Erlhof, G.: Praktična građevinska statika I, Građevinska knjiga, Beograd, 1979. 5. Prokofjev, I. P.: Teorija konstrukcija I, Građevinska knjiga, Beograd, 1966.
24
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
STRUCTURE AND CHARACTERISTICS OD MATERIALS
Course code: MK-123 Course status: mandatory
Pre-requisites: The course consists of: lectures exercises
-
Hours of Active Classes: 30 lectures: 30 exercises: 0 seminars: 0 ECTS: 2.5
Course objectives
Students are introduced to the principles of materials science, which deals with structure of materials and its relation to properties of materials, and the behaviour of materials under mechanical loads.
Syllabus
Atomic bonding (Ionic Bonds, Covalent Bonds, Metallic Bonds, Van der Waals Bonding). The Architecture of Solids (Crysttaline State, Amorphous State, Polymeric State). Development of microstructure (Solidification, Phase Changes, Phase Diagrams). Surface Properties (Surface Tension, Adsorption, Capillary effects, Colloids). Response of Materials to Stress (Compression, Tension, Bending, Torsion). Failure and Fracture (Failure Theories, Fracture Mechanics). Rheology of Fluids and Solids (Elastic and Viscous Behaviour, Creep of Engineering Materials). Fatigue.
Student obligations
Participation in all lectures and exercises. Preliminary exams.
Exam
The exam is taken in written form.
Assessment (1)
Preliminary exams (70%), written exam (30%). Essential: 1. Young, J.; Mindess, S.; Gray, RJ.; Bentura: The Science and Technology of Civil Engineering Materials, Prentice Hall, 1998. 2. Ukrainczyk, V: Poznavanje gradiva, Institut građevinarstva Hrvatske, Alcor, Zagreb, 2001.
Literature
Recommended: 1. Ukrainczyk V: Poznavanje gradiva, Institut građevinarstva Hrvatske, Alcor, Zagreb, 2001. 2. Ukrainczyk V: Beton – struktura, svojstva, tehnologija, Alcor, Zagreb, 1994. 3. Illston J M, Domone P L J (ed.): Construction materials – their nature and behaviour, E & FN SPON Chapman & Hall, 1994. 4. Ashby M F, Jones D R: Engineering Materials 1, Butterworth Heinemann 1996.
25
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
Course:
HYDROLOGY
Course code: H-117 Course status: mandatory
Pre-requisites:
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
The course consists of: lectures exercises
-
Hours of Active Classes: 45 lectures: 30 exercises: 15 seminars: 0 ECTS: 3.0
Course objectives
- To provide that students during the course adopt basic knowledge and concepts of hydrological processes and regularities - To present students basics of statistic procedures and their application as well as the application probability theory. Enabling students for independent performance of elementary hydrologic calculations in hydrotechnics.
Syllabus
- History and definition. Water distribution and water cycle. Hydrometry (measurements of hydrologic parameters, measurement instruments and equipment, judgement of measurement errors) - Meteorologic and hydrologic parameters (precipitation, temperature, evaporation, humidity, water level, runoff, suspended and drawled sediment, water temperature...). Definition of runoff curves, curces of duration and frequency of detected parameters - Basic application of mathematical-statistical methods and probability theory in hydrology. Numerical character of random variables. Empiric and theoretic functions of probability distribution. Testing of statistic hypotheses. Correlations and regressions in hydrology. - Water catchment and river hydrography, relation between precipitations and runoffs, hydrologic balance - Low and middle waters. Analysis of runoff hydrograms, basic parametric calculations of high waters empiric and rationale methods, IDR and HDR curves. Hydrograms.
Student obligations
- Attendance to lectures and exercises as defined by the faculty regulations. - Attendance to the demonstrational field exercise in hydrometry. - Preparing and delivering of a program from exercises (application of statistic and parametric methods in hydrologic calculations)
Exam
The exam is taken in written form.
Assessment (1)
Preliminary exams (70%), written exam (30%).
Literature
Essential: 1. Žugaj, R. :Hidrologija, RGN fakultet, Zagreb, 2002; 2. Bonacci, O.: Meteorološke i hidrološke podloge, Priručnik za hidrotehničke melioracije, Društvo za odvodnjavanje i navodnjavanje Hrvatske, Zagreb, 1984, 3. Pauše, Ž. Uvod u matematičku statistiku, Školska knjiga Zagreb, 1993.. Recommended: 1. Bonacci, O.: Oborina – glavna ulazna veličina u hidrološki ciklus, Geing, Split, 1994., 2. Chow, Ven Te, etc.(1988): Applied Hydrology, McGraw-Hill Publishing Co.
26
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
SOIL AND ROCK MECHANICS
Course code: G-106 Course status: mandatory
Pre-requisites: Inscribed Applied Geology The course consists of: lectures exercises
Course objectives
The student is expected to acquire a basis knowledge and understanding of the behaviour of soils and rocks. Enable to identify and classificy soils and rocks, learn fundamental principles of strength, deformability and others properties of soils and rocks. Prepare students for Geotechnical Engineering and others applied courses.
Syllabus
1. Physical and mechanical properties of soils and rocks 2. Classifications and indentifications of soils and rocks 3. Laboratory and in situ testings of soils and rocks 4. Water in soils and rock masses 5. Stregth of soils, rocks and rock masses 6. Stress in soils and rock masses 7. Bearing capacity of soils and rock masses 8. Deformability of soils, rocks and rock masses 9. Consolidation in soils 10. Lateral earth pressure
Student obligations
Lecture course attendance Exercise course attendance Seminar course attendance
Exam
Written and oral exam. Positively marked written exam is a condition for the oral exam. Written exam consist of theoretical and numerical part.
Assessment (1)
Preliminary exams, seminar (70%), written exam (30%).
Literature
seminars
Hours of Active Classes: 75 lectures: 45 exercises: 20 seminars: 10 ECTS: 5.5
Essential: 1. Arbanas, Ž.: Mehanika tla, Građevinski fakultet Sveučilišta u Rijeci, Neautorizirana predavanja, Rijeka, 2005. 2. Virkljan, I. Inženjerska mehanika stijena. Interna skripta građevinskog fakulteta u Rijeci, 2002. 3. Nonveiller, E.: Mehanika tla i temeljenje građevina, Školska knjiga, Zagreb, p.780, 1979. 4. Hoek, E.: Rock Engineering, A Course Notes, http://www.rocscience.com, p. 313, 2000. 5. Bieniawski, Z.T.: Engineering Rock Mass Classification, New York: John Wiley & Sons, p. 251, 1989. 6. Vrkljan, I., Inženjerska mehanika stijena, interna skripta Građevinskog fakulteta u Rijeci, 2002. Recommended: 1. Verruijt, A.: Soil Mechanics, Delft University of Technology, 2001. 2. Naval Facilities Engineering Command: Soil Mechanics, Design Manual 7.01, Alexandria, VI, 1986.
27
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
STRUCTURAL MECHANICS II
Course code: TM-149 Course status: mandatory
Pre-requisites: Inscribed Structural Mechanics I The course consists of: lectures exercises
Course objectives
At the end of the course unit the student is expected to acquire a basis theoretical knowledge and practical methods of calculation of statically indeterminate constructions of engineering structures under the static loads.
Syllabus
Methods for analysis of statically indeterminate constructions. Differential equations of elastic line. Energetic principles. Force method. Equations of continuity. Flexibility matrix. Centre of elastic displacement. Influence of coercive displacements. Influence of temperature changes. Calculation of statically indeterminate trusses. Determination of influential functions by the force method. Displacement method. Stiffness matrix. Condensation of the local stiffness matrix. Forces on fixed ends of the beam. Vector of equivalent load. Equations of the constructional system. Boundary conditions. Forming of the stiffness matrix of the constructional system. Calculation of various statically indeterminate constructions by the displacement method: orthogonal frames, symmetric girders, space structures, grid structures. Determination of the influential functions by the displacement method. Engineering displacement method. Movable and unmovable constructional systems.
Student obligations
- course attendance: min. 70% hours of lectures and exercises - preliminary exams: obligatory - accepted project work before the oral exam
Exam
Written exam and oral exam.
Assessment (1)
Preliminary exams (70%), written exam (30%).
-
Hours of Active Classes: 75 lectures: 45 exercises: 30 seminars: 0 ECTS: 6.5
Essential: 1. Anđelić, M.: Statics of indeterminate line structures, DHGK, Zagreb 1993. 2. Wagner, W.; Erlhof, G.: Practical structural analysis III, 1981. .
Literature
Recommended: 1. Livesley, R.K.: Matrix Methods of Structural Analysis, 1975. 2. Đurić, M.: Statika konstrukcija, 1979. 3. Solovjev, Đ.: Statika konstrukcija (II dio), Veselin Masleša, Sarajevo, 1956. 4. A. Ghali, A.M. Neville and T.G. Brown, Structural analysis. A Unified Classical and Matrix Approach, Spon Press, London and New York, 2003. 5. R. Guldan, «Okvirne konstrukcije i kontinualni nosači», Građevinska knjiga, Beograd, 1952. 6. S. Timošenko, D.H.Jang, «Statika inženjerskih konstrukcija», Građevinska knjiga, Beograd, 1956. 7. D. Solovljev, «Statika konstrukcija, statički neodređeni sistemi», Veselin Masleša, Sarajevo, 1956. 8. I.P. Prokofjev, «Teorija konstrukcija II», Građevinska knjiga, Beograd, 1960. 9. K. Beyer, «Statika armiranih betonskih konstrukcija, Građevinska knjiga, Beograd, 1963.
28
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
FLUID MECHANICS
Course code: H-115 Course status: mandatory
Pre-requisites: Mechanics II The course consists of: lectures exercises
Course objectives
- To provide that during the course students adopt basic elements of engineers foreseeing, conclusion making and elementary hydrotechnical tasks solving from the domain of fluid mechanics - Enabling students for independent realisation of basic tasks from the domain of fluid mechanics.
Syllabus
-
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 5.5
Basic concepts of fluid. Fields. Physical characteristics of fluids. Rheologic diagram. Forces on fluid. Statics of fluids. Balance equation. Relative quiescence. Floating and body stability. Kinematics of fluids. Movements of fluid particles. Steady flow. Maintenance laws. Fluid dynamics. Equation of maintenance of movement quantity. General law of real fluid flow. Equation of maintenance of kinetic energy. Bernoulli's equation for ideal and real fluid. Laminar flow. Turbulent flow. Border layer. Resistance to the flow, calculation of local and linear energy losses. Potential flow. Equations of potential flow. Border conditions. Modelling of fluid flow. Similarity law. Systems under pressure. Pumps. Turbines. Runoff. Spillways. Open channel flow. Underground water flow. Wells.
Student obligations
- Attendance to lectures and exercises as defined by the faculty regulations. - Colloquies
Exam
The exam is taken in written and oral form.
Assessment (1)
Preliminary exams, course attendance (70%), written exam (30%).
Literature
Essential: 1. Jović, V.: Osnove hidromehanike, Element d.o.o., 2006. 2. Andročec, V.: Mehanika fluida (interna skripta), 2003. 3. Fancev, M.: Mehanika fluida, Tehnička enciklopedija 8. svezak, Zagreb, 1982. 4. Agroskin, I.: Hidraulika, Tehnička knjiga, Zagreb, 1973. 5. Chow, V.T.: Open Channel Hydraulics, Mc Graw-Hill Kogakusha, 1959. Recommended: 1. Gjetvaj, G.: Eksperimentalna Hidraulika (interna skripta), 2003. 2. Kobus, H: Hydraulic Modelling, German Association for Water Resources and Land Improvement, Verlag PaulParcy, Hamburg, 1980
29
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
INTRODUCTION TO ROAD DESIGN
Course code: P-165 Course status: mandatory
Pre-requisites: Geodesy The course consists of: lectures exercises
Course objectives
The student is expected to become familiar with basic design of roads in rural areas and it's elements.
Syllabus
-
Student obligations
- accepted project work (project for road in rural area) until specified date, oral preliminary exam
Exam
The exam is taken in written form.
Assessment (1)
Project work, preliminary exams, seminar work (70%), written exam (30%).
Literature
-
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 4.5
History of road design and construction Road classification Basic elements in road design and constructions Traffic loading Theory of vehicle Horizontal elements in road design, elements of horizontal road line Vertical elements in road design Road cross-sections Basis of flexible pavement design (standards) Materials for construction of road subbase and pavement Basis of road drainage Basis of road intersections
Essential: 1. Korlaet, Ž.: Uvod u projektiranje i građenje cesta, Sveučilište u Zagrebu, Zagreb, 1995. 2. Dragčević, V., Korlaet, Ž.: Osnove projektiranja cesta, Sveučilište u Zagrebu Građevinski fakultet, Zagreb 3. Pravilnik o osnovnim uvjetima kojima javne ceste izvan naselja i njihovi elementi moraju udovoljavati sa stajališta sigurnosti prometa, Narodne novine br.110/01 4. Žnideršić, B., Priručnik za iskolčavanje kružnih krivina, Građevinska knjiga, 1972. 5. Žnideršić, B., Priručnik za obilježavanje prijelaznice oblika klotoide pravokutnim koordinatama, Građevinska knjiga, 1972. Recommended: 1. Prvi Hrvatski kongres o cestama 1995, Zbornik priopćenja, Hrvatsko društvo za ceste-Via Vita, Opatija 1995 2. Drugi Hrvatski kongres o cestama 1999, Zbornik priopćenja, Hrvatsko društvo za ceste-Via Vita, Cavtat 1999 3. Treći Hrvatski kongres o cestama 2003, Zbornik priopćenja, Hrvatsko društvo za ceste-Via Vita, Trogir 2003.
30
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
ENGINEERING MATERIALS
Course code: MK-124 Course status: mandatory
Pre-requisites: Physics The course consists of: lectures exercises
Course objectives
Students will get a basic knowledge about the materials used in civil engineering and their technology and they will be introduced to testing methods and standards for construction materials.
Syllabus
Particulate Composites. Portland Cement Concrete (Portland Cement, Admixtures, Cement Replacement Materials, Aggregates for Concrete). Properties of Fresh and Early Age Concrete. Deformation of Concrete. Strength and Failure of Concrete. Concrete Mix Design. Non-destructive Testing of Hardened Concrete. Inorganic and Mineral Binders. Physical Metallurgy. Mechanical Properties of Metals. Corrosion of Metals. Wood. Polymers and Plastics. Fiber-reinforced Composites.
Student obligations
Participation in all lectures and scheduled group laboratories. Submit a final laboratory reports. Preliminary exams.
Exam
The exam is taken in written form.
Assessment (1)
Preliminary exams, laboratory exercises (70%), written exam (30%).
-
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 5.0
Essential: 1. Balabanić G., Materijali 2 - skripta 2. Balabanić, G.: Upute za praktikum iz građevinskih materijala – skripta. 3. Bjegović D., Balabanić G., Mikulić D.: Građevinski materijali – zbirka riješenih zadataka, Zagreb, 2007. Literature
Recommanded: 1. Ukrainczyk V: Poznavanje gradiva, Institut građevinarstva Hrvatske, Alcor, Zagreb, 2001. 2. Ukrainczyk V: Beton – struktura, svojstva, tehnologija, Alcor, Zagreb, 1994. 3. Illston J M, Domone P L J (ed.): Construction materials – their nature and behaviour, E & FN SPON Chapman & Hall, 1994. 4. Ashby M F, Jones D R: Engineering Materials 1, Butterworth Heinemann 1996.
31
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
BASICS OF CONCRETE STRUCTURES
Course code: NK-135 Course status: mandatory
Pre-requisites: Strength of Materials I, Structural Analysis II The course consists of: lectures exercises -
Course objectives
Students will acquire basic knowledge of the properties of the constitutive materials, the rules of design and construction of concrete structures. Students will be able to design simple concrete structures, to assist in the design of complex structures and to participate in the building of concrete structures. The acquired knowledge is also the basis for future technical and scientific education in the field of concrete structures and load-bearing structures in general.
Syllabus
Generally of concrete structures. Properties of concrete and reinforcing steel. Condition of joint action of concrete and rebar. Bond, anchorage and continuing reinforcement. Shaping reinforcement. Design properties of materials. Minimum and maximum reinforcement areas. Design of rectangular and Tsections exposed to bending. Short elements subjected to compressive axial force with or without uniaxial bending. Elements subjected to tensile axial force with or without uniaxial bending. Local compressive stresses. Elements subjected to shear. Elements subjected to torsion. Design of slabs for punching. The effects of second order in the slender compression members at nominal curvature method. Limit states: Control of cracking without direct calculation and cases when the deflection calculation can be omitted. Design and structural principles of the basic reinforced structural elements: beams, slabs, columns, walls, corbels and deep beams. Floor structures. Reinforced concrete stairs. Reinforced concrete foundation. Frame structures. The basic principles of reinforced concrete building structures. The basic concepts of prestressed concrete.
Student obligations
Course attendance, project work, preliminary exams.
Exam
The exam is taken in written form.
Assessment (1)
Course attendance, project work, preliminary exams (70%), written exam (30%).
Hours of Active Classes: 75 lectures: 45 exercises: 30 seminars: 0 ECTS: 6.0
Essential: 1. Materijali s predavanja i vježbi (objavljeni na web stranici predmeta) 2. Tomičić, I.: Betonske konstrukcije, DHGK, Zagreb, 1996. 3. Tomičić, I.: Priručnik za proračun armiranobetonskih konstrukcija, DHGK, Zagreb, 1993.
Literature
Recommended: 1. EN 1992-1-1, Eurocode 2: Design of concrete structures – Part 1-1: General rules and rules for buildings, CEN, Brusseles, 2004. 2. Zilch, K.; Zehetmaier, G.: Bemessung in konstruktiven Betonbau nach DIN 1045-1 und DIN EN 19921-1, Springer-Verlag, Berlin – Heidelberg, 2006. 3. Mosley, B.; Bungey, J.; Hulse, R.: Reinforced Concrete Design to Eurocode 2, Palgrave Macmillan, Hampshire – New York, 2007. 4. Martin, L.A.; Purkiss, J.A.: Concrete Design to EN 1992, Butterworth-Heinemann, Oxford - London, 2006. 5. Rosman, R.: Stropne konstrukcije, DGKH, Zagreb, 1990.
32
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
INTRODUCTION TO STEEL STRUCTURES
Course code: NK-136 Course status: mandatory
Pre-requisites: Structural Mechanics I The course consists of: lectures exercises
Course objectives
Ability to identify, formulate and solve engineering problems in the field of design of steel-framed structures.
Syllabus
Need for and use of steel structures; Types of steel structures; Manufacturing from molted iron to steel in the past; Definition of basic steel characteristics (weldability of steel, brittle fracture, imperfections); Quality of steel in civil structural engineering; Loads, actions and partial safety factors; Safety concept: Ultimate Limit States and Serviceability Limit States; Dimensions, properties and classification of cross-sections; Resistance of cross-sections: compression, moment and shear resistance; Interactions; Resistance of members: buckling resistance and lateral torsional buckling; Members subjected to axial compression force and bending after Eurocode 3; Joints and connections: column to beam and column to foundation; Bolted and welded connections; Welding technologies; Design and construction of Single-storey, one way spanning buildings; Problems in construction and operations; Computer Aided Design and suitable software.
Student obligations
Obligatory attendance to the course. Accepted project work before the end of the term.
Exam
The exam is taken in written form.
Assessment (1)
Preliminary exams (70%), written exam (30%).
seminars
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 5.0
Essential: 1. Androić, B., Dujmović, D., Džeba, I., METALNE KONSTRUKCIJE 1, IGH, Zagreb, 1994. 2. Androić, B., Dujmović, D., Džeba, I., METALNE KONSTRUKCIJE 2, IA PROJEKTIRANJE, Zagreb, 1995. 3. Džeba, I., Androić, B., Dujmović, D., METALNE KONSTRUKCIJE 3, IA PROJEKTIRANJE, 1998. Literature
Recommended: 1. Androić, B., Dujmović, D., Džeba, I., METALNE KONSTRUKCIJE 4, IGH, Zagreb, 2003. 2. Dujmović, D., Androić, B., Džeba, I., MODELIRANJE METALNIH KONSTRUKCIJA PREMA EUROCODE 3, IA PROJEKTIRANJE, Zagreb, 2004. 3. Eurocode 3 – Design of steel structures, Part 1-1: General rules and rules for buildings, European Committee for Standardization, EN 1993-1-1:1992.
33
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
INTRODUCTION TO HYDRAULIC ENGINEERING
Course code: H-118 H-112 Course status: mandatory
Pre-requisites: Fluid Mechanics The course consists of: lectures exercises
Course objectives
To provide that during the course students adopt basic elements of engineers foreseeing, conclusion making and elementary hydrotechnic tasks solving from the domain of water supply, drainage and regulation constructions Enabling students for independent solving of basic tasks from the domain of water supply, dreainage and water bed regulation
Syllabus
- Water and water resources (basic concepts, water distribution in hydrosphere, water quality, water managemental systems and surroundings, structural and non-structural measures in water management) - Water supply systems (water demands, water conditioning, elements of water supply systems, basics of planning, constructioning and maintaining of water supply systems) - Systems of the drainage of sewage and precipitation water (dimmensioning quantities, elements of the drainage systems, sewage water purification, recipient characteristics, protection from water pollution, basics of planning, constructioning and maintaining of water drainage systems) - River bed regulations (morphology of the river bed, floods, sediment, longitudinal and transversal constructions in water bed, basics of planning, constructioning and maintaining of constructions)
Student obligations
Attendance to lectures and exercises as defined by the faculty regulations. Preparing and delivering of a program from exercises (designing of the idea solution for water supply system, sewage system and/or water bed regulation) Preliminary exams.
Exam
The exam is taken in written form.
Assessment (1)
Project work, course attendance, preliminary exams (70%), written exam (30%).
-
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 5.0
Essential: 1. Gulić, I. (2000): Opskrba vodom, HSGI, Zagreb; 2. Margeta, J. (1998): Kanalizacija naselja, GF Split, GF Osijek, IGH,PC Split., 3. Vuković, Ž. (1994): Osnove hidrotehnike, Akvamarine, Zagreb. 4. Karleuša, B. i Rubinić, J.: Materijali s predavanja (dostupni na web stranici kolegija) Literature Recommended: 1. Tedeschi, S. (1996): Zaštita voda, Hrvatsko društvo građevinskih inženjera 2. Svetličić,E. (1987): Otvoreni vodotoci – regulacije, GF Zagreb.; 3. Chin, A.D.: 2000, Water – Resources Enginnering, Prentice Hall, New Jersey.
34
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
CONSTRUCTION MANAGEMENT AND TECHNOLOGY
Course code: OA-147 Course status: mandatory
Pre-requisites: Structure and Characteristics of Materials The course consists of: lectures exercises -
Course objectives
Acquiring technological and organisational knowledge and skills required to manage and lead construction.
Syllabus
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15.
Hours of Active Classes: 75 lectures: 45 exercises: 30 seminars: 0 ECTS: 6.0
Construction technics and technology Earthworks technology Technology of ready-mixed concrete and mortar Steel bending works technology Transports – cargo lifting and transfer Scaffolds and formworks Technology of asphalt works Introduction to construction organisation System and project, the basics of project management Design of construction organisation Organisation of construction processes Site organisation Construction planning Organisation of participants in building process; Safety at work
Student obligations
Attendance to the course according to the Faculty regulations Accepted project work before the end of the term
Exam
The exam is taken in written and oral form.
Assessment (1)
Project work, preliminary exams (70%), written exam (30%). Essential: 1. Car-Pušić, D.: Organizacija i tehnologija građenja, 2004. (unreviewed course materials for internal use) 2. Lončarić, R.: Organizacija izvedbe graditeljskih projekata 3. Slunjski, E.: Strojevi u građevinarstvu, HDGI, Zagreb, 1998.
Literature
Recommended: 1. Bučar G.: Tesarski, armirački i betonski radovi na gradilištu, Građevinski fakultet J.J. Strossmayera, Osijek, 1997. 2. Trbojević, B.: Građevinske mašine, Beograd, 1985. 3. Trbojević, B.: Organizacija građevinskih radova, Naučna knjiga, Beograd, 1992. 4. www.grad.hr.-djelatnici-dr.sci.Zdravko Linarić-Dokumenti raspoloživi za download5. Leksikon osnovne građevinske mehanizacije 6. Učinak građevinskih strojeva 7. Postrojenja za proizvodnju gradiva, I dio-Drobilane, Tvornice betona(betonare), Asf. baze
35
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
GEOTECHNICAL ENGINEERING
Course code: G-107 Course status: mandatory
Pre-requisites: Soil and Rocks Mechanics The course consists of: lectures exercises
Course objectives
The student is expected to acquire a basis knowledge of geotechnical engineering. The main objective of this course is to educate future engineers in basic geotechnical analysis and develop competences in design of foundations and other geotechnical structures. Prepare students for others applied courses.
Syllabus
Spread foundations Deep foundations: piles and slurry walls Deep foundations: caissons, pneumatic caissons and box Retaining constructions Sheet-pile walls Slope stability: triggering mechanisms and stability analysis Slope stability: stabilization of slopes Earth structures Construction methods of tunnel, shafts and underground structures Underground excavation instability mechanisms Stabilization principles of the underground excavation
Student obligations
Lecture course attendance. Exercise course attendance. Seminar course attendance.
Exam
Written and oral exam.
Assessment (1)
Preliminary exams, seminar work (70%), written exam (30%).
seminars
Hours of Active Classes: 75 lectures: 45 exercises: 30 seminars: 0 ECTS: 6.0
Essential: 1. Arbanas, Ž.: Temeljenje I, Građevinski fakultet Sveučilišta u Rijeci, Neautorizirana predavanja, Rijeka, 2005. 2. Nonveiller, E.: Mehanika tla i temeljenje građevina, Školska knjiga, Zagreb, p.780, 1979. 3. Bowles, J.E.: Foundation analysis and design, Mc. Graw Hill, III. Ed. Int. Student ed., New York, p 816, 1986. 4. Vrkljan, I., Podzemne građevine i tuneli, interna skripta Građevinskog fakulteta u Rijeci, 2002. Literature
Recommended: 1. Nonveiller, E.: Kliženje i stabilizacija padina, Školska knjiga, Zagreb, p.204, 1987. 2. Naval Facilities Engineering Command: Foundation, Design Manual 7.01, Alexandria, VI, 1986. 3. Hoek, E., Bray, J.W.: Rock Slope Engineering, 2nd. Edn., The Institute of Mining and Metallurgy, London, p. 527., 1977. 4. Hoek, E., Brown, E.T.: Underground Excavations in Rock, Istitution of Mining and Metallurgy, London, 1980. 5. Bowles, J.E.: Foundation analysis and design, Mc. Graw Hill, III. Ed. Int. Student ed., New York, p 816, 1986.
36
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
CONSTRUCTION ECONOMICS
Course code: OA-148 Course status: mandatory
Pre-requisites: inscribed Construction Management and Technology The course consists of: lectures exercises -
Course objectives
Acquiring knowledge required for costs analysis and construction works price calculation
Syllabus
1. Construction standards 2. Construction standards for particular works – preliminaries, earthworks, carpenters works, steel bending works, concrete works, masonry works, transfers, crafts manly works 3. Machine works standards 4. Structure of cost in construction – material costs, costs of labour, machine work costs, machine amortization, direct and indirect costs, structure of indirect site costs, company administration costs, additional calculation, calculated factor, price analysis, construction works price calculations
Student obligations
Attendance to the course according to the Faculty regulations Accepted project work before the end of the term
Exam
Written and oral exam.
Assessment (1)
Project work, preliminary exams (70%), written exam (30%).
Hours of Active Classes: 45 lectures: 30 exercises: 15 seminars: 0 ECTS: 4.0
Essential: 1. Bučar, G.: Priručnik za građevinsko poduzetništvo Normativi građevinskih radova,ICG Omišalj,Rijeka,1999.; ili 2. Bučar, G.: Normativi i cijene u graditeljstvu,ICG Omišalj, Građevinski fakultet u Rijeci, Rijeka, 2003. Literature Recommended: 1. www.grad.hr-djelatnici-dr.dci.Zdravko Linarić-Dokumenti raspoloživi za download-Troškovi strojnog rada u građenju 2. Žaja, M.: Ekonomika proizvodnje, Školska knjiga, Zagreb, 1991.
37
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
FIELDWORK
Course code: OA-149 Course status: mandatory
Pre-requisites: 120 ECTS achieved The course consists of: exercises
Course objectives
Introduction with the practical application of managerial and technological knowledge solving the particular site problems.
Syllabus
-
Hours of Active Classes: 30 lectures: 0 exercises: 30 seminars: 0 ECTS: 3.0
Fieldwork at the selected building or civil engineering construction site with construction diary operating and organizational and technological program assignment solution.
Student obligations
Fieldwork at the selected building or civil engineering construction site (5 days x 3hours) with construction diary operating and organizational and technological program assignment solution. Discussing the chosen solution by individual consultations. • Making written survey. Oral survey presentation. Seminar paper on a given topic
Exam
None.
Assessment (2)
project work preliminary site practice and project work based exam (100%) Essential: - depending on the programming task
Literature
Recommended: 1. Bučar, G.: Tesarski, armirački i betonski radovi na gradilištu, Građevinski fakultet J.J. Strossmayera, Osijek, 1997. 2. Lončarić, R.: Organizacija izvedbe graditeljskih projekata 3. Trbojević, B.: Organizacija građevinskih radova, Naučna knjiga, Beograd, 1992.
38
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
FINAL YEAR PROJECT
Course code: ZR-PRED Course status: mandatory
Pre-requisites: The exam can be undertaken only after all other course exams have been passed The course consists of: seminars
Course objectives
The successfully passed final year project exam confirms that the student has, in the course of their studies, acquired the necessary skills to produce and present a major seminar work (project plan or a solution to a theoretical or practical civil engineering problem) in the area of planning and design of a simpler civil engineering structure or system.
Syllabus
The final year project is to be conducted during the total of 140 hours (ECTS 5), which includes 60 hours of active classes. The project subject can be practical or theoretical and has to be related to a civil engineering activity and the undergraduate courses. It is chosen by the student and confirmed by the board in charge during the sixth term and not later than 1 May of the running year. The final year project can be of the following types: - planning a simpler civil engineering facility (a smaller bridge, a road out of a city, a simpler system of water supply or discharge etc.) - building organisation project of a simpler facility - design of a concrete, steel or timber structure - analytical or numerical analysis of an engineering problem which requires additional theoretical insight The student collaborates closely with the supervisor, who is normally the teacher of the course thematically associated with the project. If necessary, a co-supervisor may also be nominated.
Student obligations
The student is expected to submit the working version of the project to the supervisor as a condition for the confirmation of the course. The final version of the project should be submitted to the supervisor and the General Office (two copies) at least seven working days before the tentative presentation date. The public exam (presentation) take place during the exam periods and the General Office notifies about the actual dates.
Exam
The exam is conducted orally, through a public presentation of the project in front of the supervisor.
Assessment (1)
70% for the written project, 30% for the exam (presentation). Essential: Depending on the subject
Literature Recommended: Depending on the subject
39
Hours of Active Classes: 30 lectures: exercises: seminars: 30 ECTS: 5.0
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
ENGINEERING GEOMETRY
Course code: M-182 Course status: optional
Pre-requisites: The course consists of: lectures -
seminars
Hours of Active Classes: 30 lectures: 10 exercises: 0 seminars: 20 ECTS: 3.0
to acquire the knowledge about quadric surfaces and methods for constructive elaboration interdisciplinary approach to geometry in engineering, computer graphics and object -shapes to acquire the problem-oriented exercises, using computer graphics to develop abbility to identify, formulate and solve complex engineering geometric problems
Course objectives
-
Syllabus
Computer graphics and CAGD -Computer Aided Geometric Design Perspective projection and it's use in CAD Surfaces on objects. Introduction to theory of surfaces. Quadrics. Surface modelling in CAD. Intersection of a quadric and a plane. Constructive methods in virtual 3D-space on computer. Intersection of quadrics. Space quartic curves. Solid-modelling, transformations of primitives and constructive solid geometry Tangent plane and normal in the regular point of the surface. Main and gaussian curvature of surfaces. 3D constructions using CAD. Ruled surfaces. Ruled quadrics and CAD modelling. Ruled quadrics in civil engineering. Constructive elaboration. Geometry of roofs Quoted projection. Topographic surfaces. Tracing. Solving methods using profiles and contour lines.
Student obligations
- course attendance - active collaboration- seminars - accepted project work before the end of the term
Exam
none
Assessment (1)
Course attendance, tasks, preliminary exams (100%). Essential: 1. Pletenac, Lidija: Inženjerska geometrija u CAD- u, elektronički udžbenik-skripta, 2. Babić; Gorjanc; Sliepčević; Szirovicza: Konstruktivna geometrija, IGH, Zagreb, 2000. 3. Niče, dr.Vilko: Deskriptivna geometrija I i II, Školska knjiga, Zagreb, 1992. 4. Design CAD Manual (raspoloživ u elektroničkom obliku).
Literature
Recommended: 1. Gerald Farin: Curves and Surfaces for Computer Aided Geometric Design, (a practical guide), Academic Press, Boston, 1990. 2. Foley, van Dam, Feiner, Hughes, Phillips: Introduction to Computer Graphics, Addison –Wesley , Massachusetts, 1994. 3. Foley, van Dam, Feiner, Hughes, Computer graphics: Principles and Practice, Addison Wesley, Massachusetts, 1990. 4. Hohenberg, Fritz: Konstruktive Geometrie in der Technik, Wien,1961. 5. John Vince: 3-D computer animation, Addison –Wesley Publishing Company 1994 6. Giering, Dr. Osvald; Seybold, Dr. Hans: Konstruktive Ingenieurgeometrie, Carl Hanser Verlag, München
40
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
COMPUTER APPLICATIONS
Course code: M-184 Course status: optional
Pre-requisites:
Course objectives
The student learns to use the software tool for CAD and engineering drafting (Autocad)
Syllabus
The course consists of: lectures exercises
seminars
Hours of Active Classes: 30 lectures: 10 exercises: 10 seminars: 10 ECTS: 3.0
— Explanation of CAD, CAE , CAM, CAAD, steps in computer design, the examples of CAD tools for civil engineering and architecture, difference between vector and bitmap computer images — Coordinate systems, types of commands, 2D drafting in Autocad — Geographical information system: definition of GIS, area of application, attribute and spatial data — Data organization. Databases. File organization
Student obligations
Accepted computer assignments until specified date and one seminar work
Exam
none
Assessment (1)
Activity in class, assignments and seminars (100%)
Literature
Essential: 1. course materials presented on the web site www.gradri.hr/~informatika 2. the relevant web site adresses presented on the course web site 3. manuals related to the software presented during the lessons- literature is regularly renewed Recommended: - Stated at http://www.gradri.hr/?rijeka=class1,123
41
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
INTRODUCTION TO PROGRAMMING
Course code: M-177 Course status: optional
Pre-requisites: The course consists of: lectures exercises
-
Hours of Active Classes: 30 lectures: 10 exercises: 20 seminars: 0 ECTS: 3.0
Course objectives
The goal of the course is to achieve an overview of information technologies which can be used in the professional field. The student will learn how to approach and solve specified problem with a computer. The student will learn to create simple VBA programs in Excel and will get familiar with databases.
Syllabus
Programming, program languages and their classification, specialized languages (DSL), script languages, compilers and interpreters, algorithms, steps in programming: from defining a program to application maintenance, object oriented programming, VBA – Visual Basic for Applications, VBA for Excel
Student obligations
Accepted computer assignments until specified date and one seminar work
Exam
none
Assessment (1)
Activity in class, assignments and seminars (100%)
Essential: Literature Recommended: 1. J. Walkenbach: Excel 2007 Power Programming with VBA, Wiley
42
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
COMMUNICATION SKILLS
Course code: FD-193 Course status: optional
Pre-requisites: The course consists of: lectures exercises
-
Hours of Active Classes: 30 lectures: 15 exercises: 15 seminars: 0 ECTS: 2.0
Course objectives
The course goal is to provide understanding of fundamental knowledge about interpersonal communication, about verbal and nonverbal communication, and to enhance skills at interpersonal communication.
Syllabus
1. Effective communication: Components and process. Communication Types. Communication barriers. Cultural influences. 2. Verbal communication: Language, Meaning. Message clarity. Language formality. Gender differences in communication. 3. Nonverbal communication: Types of nonverbal communication. Functions. Nonverbal expressivity and sensitivity. Verbal and nonverbal contradiction. Self-presentation. 4. Communication skills: - Listening. Importance of listening. Components. Active listening tecniques. - Conflict and negotiation. Types of conflict. Causes and consequences. Conflict resolution. - Assertiveness: What is assertiveness. Causes of nonassertiveness. Special techniques of assertive communication. - Communication in the workplace: Interview. Communication in organisation. Communication climate. Communication in work tems. Leadership. Public communication.
Student obligations
Students must be active and participate in class activities.
Exam
none
Assessment (1)
Activity in class, course attendance (100%) Essential: 1. Adubato, S., Foy DiGeronimo, T. (2004). Govorite iz srca. Alinea, Zagreb.2004 2. Breakwell, G.M. (2001). Vještine vođenja intervjua. Jastrebarsko, Naklada Slap. 3. Miljković, D., Rijavec, M. (1999). Menedžerske vještine 1, IEP, Zagreb. 4. Miljković, D., Rijavec, M. (2002). Menedžerske vještine 3, IEP, Zagreb. 5. Breakwell, G.M. (2001). Vještine vođenja intervjua. Jastrebarsko, Naklada Slap. 6. Tannen, D. (1998). Ti to baš ne razumiješ, Zagreb, Izvori.
Literature Recommended: 1. Adler, R.B., Rodman, G. (2000). Understanding Human Communication, Harcourt, Forth Worth. 2. Fox, R. (2001). Poslovna komunikacija. Hrvatska sveučilišna naklada, Zagreb. 3. Knapp, M., Hall, J.A. (2002). Nonverbal Communication k in Human Interaction, Wadsworth, Belmont. 4. Trenholm, S., Jensen, A. (2000). Interpersonal Communication, (4. izd.), Wadsworth, Belmont. 5. Verderber, K.S., Verderber, R.F. (2001). Inter-Act. Interpersonal Communication Concepts, Skills, and Contexts, 9th ed., Wadsworth, Belmont.
43
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
INTRODUCTION TO LANGUAGE CULTURE
Course code: FD-199
Pre-requisites:
Course status: optional
The course consists of: lectures exercises
-
Hours of Active Classes: 30 lectures: 15 exercises: 15 seminars: 0 ECTS: 2.0
Course objectives
The main course objective is mastering the basics of linguistic and grammar norms, in written as well as oral expression. Students will gradually become acquainted with accurate terminology as well as the uses of normative manuals (orthography, grammar, dictionaries, linguistic reference books et al.).
Syllabus
Language as system and language as standard (system norms and norms of function); standard language and its norms; standard language realization and functional styles (stylistic norms); elements of grammar (morphological, syntactic) and lexical norm; normative reference books (grammar books, dictionaries, orthographic lexica) and their use. Written expression; orthographic norm; rules of orthography; spell checking and the use of spell-checkers; forms of written expression and text structure. Oral expression; orthoepic norms; values of spoken language (syntax melody, diction and accentuation); sentence as a unit of communication (expression); suprasyntactic unity (text, discourse); speech composition; forms of oral expression; rhetoric. Language in professional use; scientific style as one of the functional styles of standard language; characteristics and layers within styles (professional, popular-scientific, scientific etc.); terminology; terminological lexica; Croatian unilingual dictionaries; organization of scientific/professional text (written and/or spoken).
Student obligations
Students are required to take active part in all aspects of course attendance; they will solve linguistic problems individually or in group assignments.
Exam
none
Assessment (1)
Activity in class, preliminary exams (100%). Essential: 1. Anić, Vladimir, Rječnik hrvatskoga jezika, Novi Liber, Zagreb 1998. 2. Anić, Vladimir – Goldstein, Ivo, Rječnik stranih riječi, Novi Liber, Zagreb 1999. 3. Babić, Stjepan – Finka, Božidar – Moguš, Milan, Hrvatski pravopis, Školska knjiga, Zagreb 1996. 4. Rječnik hrvatskoga jezika, ed. Jure Šonje, Leksikografski zavod - Školska knjiga, Zagreb 2000. 5. Škarić, Ivo, Temeljci suvremenoga govorništva, Školska knjiga, Zagreb 2000. 6. Težak, Stjepko – Babić, Stjepan, Gramatika hrvatskoga jezika, Školska knjiga, Zagreb 1992…
Literature
Recommended: 1. Barić, Eugenija et al, Hrvatska gramatika, Školska knjiga, Zagreb 1995. 2. Barić, Eugenija et al, Hrvatski jezični savjetnik, Institut za hrvatski jezik i jezikoslovlje, Pergamena Školske novine, Zagreb 1999. 3. Batnožić, Slaven – Ranilović, Branko – Silić, Josip, Hrvatski računalni pravopis (Gramatičko-pravopisni računalni vodič), Matica hrvatska - SYS, Zagreb 1996. 4. Brodnjak, Vladimir, Razlikovni rječnik srpskog i hrvatskog jezika, Školske novine, Zagreb 1991. 5. Govorimo hrvatski (jezični savjeti), ed. M. Dulčić, Zagreb 1997.
44
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
CONSTRUCTION HISTORY
Course code: OA-154 Course status: optional
Pre-requisites:
Course objectives
Syllabus
The course consists of: lectures -
seminars
Hours of Active Classes: 30 lectures: 15 exercises: 0 seminars: 15 ECTS: 2.0
Inform students about the historical development of architectural constructions for a better understanding of modern constructional solutions. Expand the knowledge of modern construction possibilities.
Prehistory- megalithic menhir, dolmen (Space concept), archetypal hut, column, beam, bearing. Egypt, Mesopotamia, stone, brick, tectonics, stereotonic structures, statics authority. Greece, beauty canon, ideal proportion (Proportional concept), module. Temple, theatre. Antique Rome, arch, tunnel volt, colonnade, arcade, dome, engineering constructions. Byzantine dome on pendentives. Middle Ages, retardation, fortification, basilica as the typology of a new focus of interest. Gothic structuralism, ribs, vaults, supports, perpendicular and floral Gothic. Reneissance and baroque renewal of the antique model, reneissance dome. Engineering constructions of the 19th century, steel, glass, concrete, world exhibitions, train stations, halls, suspension bridges. Art Nouveau at the turn of the century, Constructivism, Futurism, Modernism of the 20th century. - Postmodernism, Deconstructivism, High-tech, space shell, grid, suspended and pneumatic constructions. -
Student obligations
- Course attendence - Visits to sites and theme exhibitions - Seminar work
Exam
none
Assessment (1)
Course attendance, seminars (100%). Essential: 1. Palinić, Nana: Povijest konstrukcija, sažetak predavanja, Rijeka 2007.
Literature
Recommended: 1. Matejčić, Radmila: Kako čitati grad, ICR Rijeka, 3. dopunjeno izdanje Rijeka 1990. 2. Milić, Bruno: Razvoj grada kroz stoljeća I, II i III, Školska knjiga Zagreb 1990-2004. 3. Arhitektura historicizma u Rijeci, više autora, MMSU, Rijeka 2001. 4. Arhitektura secesije u Rijeci, MGR, više autora, Rijeka 1998. 5. Moderna arhitektura Rijeke, MGR, više autora, Rijeka 1996.
45
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
BUILDING AND CONSTRUCTING ENGLISH
Course code: FD-197 Course status: optional
Pre-requisites:
Course objectives
The course consists of: lectures excercises
seminars
Hours of Active Classes: 30 lectures: 15 exercises: 10 seminars: 5 ECTS: 2.0
Language competence perfection in written and oral form, drawing of reports and papers in English.
Grammar section (specific grammar patterns): - Grammar constructions typical for ESP, their application in written forms
Syllabus
Language section (general vocabulary, vocational and profession-related terminology): - Vocabulary extension in relation to specific Civil Engineering fields - Idioms and phrases used in everyday communication whose literal meaning is related to Civil Engineering - Writing a CV, business correspondence, job applications
Student obligations
- Attendance to the course as defined by the Faculty regulations. - Two written tests and one oral test. The scores obtained at the tests are added together (each written test is worth 30% and the oral test 40% scores). The condition for obtaining credits is 40% of total points
Exam
none
Assessment (1)
Course attendance, activity in class, seminars (100%).
Essential: Texts used in lectures and exercises Any grammar of English language Literature Recommended: - A. Prager: Trojezični građevinski rječnik, Masmedia, 2003.
46
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
INTRODUCTION TO SPATIAL PLANNING
Course code: OA-144 Course status: mandatory
Pre-requisites:
Course objectives
Syllabus
Hours of Active Classes: 45 lectures: 30
The course consists of: lectures -
exercises: 0
seminars: 15
ECTS: seminars
3.0
Familiarising of students with theory an practise of urban and regional planning and standard types of urban studies and plans, so they can understand and participate in process of planning and management of urban spaces.
Basic terms and definitions about urban planning and spatial planning and land use Urban studies and land use plans: types, characteristics, basic parts Policy making methodology Regulations ,institutions and laws in the process of planning and implementation of urban plans -Geographical, functional and economical impacts on the development of urban areas and regions Analysis and space planning of different activities: residence, work, industry, recreation, green spaces and parks, traffic and other infrastructure systems, tourism, historical and cultural objects and areas - Analysis and space planning of different areas: centre board district, residential areas, rural areas - Basic social, economical and environmental impacts on urban planning. -
Student obligations
- participating in the class - seminar work
Exam
none
Assessment (1)
Preliminary exams, seminars, course attendance, activity in class (100%). Essential: 1. Priručni materijal za kolegij izrađen od nositelja kolegija. 2. Marinović-Uzelac, A.: Naselja, gradovi i prostori. - Zagreb: Tehnička knjiga, 1986. 3. Marinović-Uzelac, A.: Prostorno planiranje. - Zagreb: Dom i svijet, 2001. 4. Zakon o prostornom uređenju i gradnji, drugi zakoni i provedbeni propisi u svezi prostornog planiranja, uređenja i gradnje - Zagreb: Narodne novine RH.
Literature
Recommanded: 1. Marinović-Uzelac, A.: Socijalni prostor grada. - Zagreb: SN Liber, 1986. 2. Meise, J., Volwahsen, A.: Stadt- und Regionalplanung. - Wiesbaden: Vieweg & Sohn, 1980. 3. Mumford, L.: Grad u historiji: prijevod s engleskog. - Zagreb: Naprijed, 1968. 4. Marinović-Uzelac, A.: Teorija namjene površina u urbanizmu. - Zagreb:Tehnička knjiga, 1989. 5. Milić, B.: Razvoj gradova kroz stoljeća - dio I i dio II. - Zagreb: Školska knjiga, 1994. 6. Le Corbusier, Ch.-Ed.: Način razmišljanja u urbanizmu. - Beograd: Građevinska knjiga, 1974. 7. Prostorno-planska dokumentacija (općina, grad, županija, država, Europska unija).
47
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
Course:
BUILDING DESIGN
Course code: OA-143 Course status: optional
Pre-requisites:
Course objectives
The course consists of: lectures exercises
-
Hours of Active Classes: 45 lectures: 15 exercises: 30 seminars: 0 ECTS: 3.0
Inform students about the methodology of planning and qualify them for reading and elaborating the planning documentation.
Syllabus
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Elements of historical development. Theoretical basis for evaluating an architectural work. Approach to planning, analysis of a location, programme, orientation, physics of a building. From a regional plan to an executional project. Technical conditions of building, standards, regulations, fire and conservation protection, safety at work. Function, construction, design for residential and public buildings. Staircases and elevators, installations, heating, cooling and ventilation. Modern facades and roof frames. Konstruction as the basis of formation - public buildings for special purposes, halls, big sheds, stadiums, theatres, aeroports.
Student obligations
Course attendence Visits to building-sites and theme exhibitions Project work: Based on the assigned general design, a part of the executional project of a small public building or a part of it.
Exam
none
Assessment (1)
Class attendance and activity, project work, preliminary exams (100%).
Literature
Essential: 1. Knežević, G., Kordiš, I.: Stambene i javne zgrade, Tehnička knjiga, Zagreb 1987. 2. Neufert, E: Elementi arhitektonskog projektiranja, Golden Marketing, Zagreb 2002. 3. Vrkljan, Z.: Oprema građevnih nacrta, Zagreb 1965. 4. Palinić, N. : Osnove projektiranja I, skripta (u izradi) Recommended: 1. Knežević, G.: Višestambene zgrade, Tehnička knjiga, Zagreb 1984. 2. Magaš, O: Skice za predavanja, skripta, Rijeka 1987.
48
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
INTRODUCTION TO BUILDING PHYSICS
Course code: MK-122 Course status: optional
Pre-requisites:
Course objectives
Enabling student to independently solve practical engineering problems from the field of the course.
Syllabus
Introduction. Modelling of fundamental equations in difusion and heat transfer. Modelling of Helmholz wave equation. Computer programs for Assessment of heat and sound resistance in buildings.
Student obligations
Course attendance, project work on PC.
Exam
none
Assessment (1)
The course consists of: lectures -
seminars
Hours of Active Classes: 30 lectures: 20 exercises: 0 seminars: 10 ECTS: 2.0
Preliminary exams, tasks (100%). Essential: 1. Kožar, Ivica: Kompjuterski programi, Građevni godišnjak 1997, str.565-574. 2. Chapra, S.C., Canale, R.P.: Numerical Methods for Engineers, McGraw Hill, 1988. 3. MathCAD 2001 user manual.
Literature
Recommended: 1. Gertis, K., Mehra, S-R., Veres, E., Kießl, K.: Bauphysikalische Aufgabensammlung mit Lösungen, Teubner, Stuttgart, 1996. 2. Ožbolt, J., Kožar, I., Eligehausen, R., and Periškić, G., (2005). “Instationäres 3D Thermomechanisches Modell für Beton,” Beton und Stahlbetonbau, in press (to be published in January, 2005).
49
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
ENVIRONMENTAL PROTECTION
Course code: G-108 Course status: optional
Pre-requisites: The course consists of: lectures -
seminars
Hours of Active Classes: 30 lectures: 15 exercises: 0 seminars: 15 ECTS: 2.0
Course objectives
Preparing students for basic understanding of global ecosystem, importance of biological diversity and biogeochemical cycles, basic principles of environmental protection and possible negative impact of constuction works. Students will be prepared for supplementary courses: Geohazards, Traffic and environment and Waste menagement.
Syllabus
Basic principles of environmental protection, Biological diversity and biogeochemical cycles Global ecosystem: interaction of geosphere, hydrosphere, atomosphere, biosphere. Human activity and environmental change Climatic changes Air pollution and Pollution of surface water and groundwater Pollution of seas and oceans Pollution of soil Construction works and environmental protection Nature protection in Republic of Croatia Environmental protection in Republic of Croatia Planning for sustainable future
Student obligations
Course attendance One seminar during term of course
Exam
none
Assessment (1)
Preliminary exams, seminars (100%). Essential: 1. Benac, Č. ZAŠTITA OKOLIŠA ZA STUDENTE GRADITELJSTVA. Građevinski fakultet Sveučilišta u Rijeci, 2004. www.gradri.hr 2. Glavač, V., UVOD U GLOBALNU EKOLOGIJU. Hrvatska sveučilišna naknada, Ministarstvo zaštite okoliša i prostornog uređenja, Pučko otvoreno učilište-Zagreb. Zagreb, 2001.
Literature Recommended: 1. Springer, P.O., ed., EKOLOŠKI LEKSIKON. Ministarstvo zaštite okoliša i prostornog uređenja, Barbat, Zagreb. Zagreb, 2001. 2. Botkin, D.B.and Keller, E.A. ENVIRONMENTAL SCIENCE, John Wiley and Sons (4. ed.), 2003
50
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
MANAGEMENT IN CIVIL ENGINEERING
Course code: OA-155 Course status: mandatory
Pre-requisites:
Course objectives
The main objective of course is acquiring basic knowledge of civil engineering companies business.
Syllabus
1) Company concept, types and objects 2) Investment characteristics and elements 3) Building companies reproduction process results 4) Production capacity economy. Costs. 5) General management thesis 6) Management role and significance in building companies business 7) Company business policy forming 8) Basis of market business. Law of supply and demand 9) Products planning and developing 10) Prices policy 11) Elasticity in consumption 12) Business decision making. Methods of decision making 13) Business communication and control system
Student obligations
Attendance to the course according to the Faculty regulations Activity in class.
Exam
Written and oral exam.
Assessment (1)
Preliminary exams, seminars (70%), written exam (30%).
The course consists of: lectures -
seminars
Hours of Active Classes: 45 lectures: 30 excercises: 0 seminars: 15 ECTS: 3.0
Essential: 1. Katavić, M., Hamarić, S., Poslovna politika, Sveučilište u Zagrebu, Građevinski institut, Zagreb, 1989. 2. Buble, M.:Osnove menadžmenta, Sinergija nakladništvo, Zagreb, 2006. 3. Buble, M. i ost.: Strateški management, Sinergija d.o.o., Zagreb, 2005. 4. Weihrich, H., Koontz, H.:Menedžment, Mate, Zagreb, 1993. 5. Žaja, M., Ekonomika proizvodnje, Školska knjiga, Zagreb, 1992. Literature
Recommended: 1. Dujanić, M.: Osnove menadžmenta, Ekonomski fakultet, Rijeka, 2007. 2. Dujanić, M.: Menadžment, Ekonomski fakultet, Rijeka, 2007. 3. Drucker, P.:Najvažnije o menadžmentu, M.E.P.Consult, Zagreb 2005. 4. Miles, R.E., Theories of Management, McGraw - Hill, 1975. 5. Sikavica, P Bahtijarević-Šiber F.:Menadžment – teorija menadžmenta i veliko empirijsko istraživanje u Hrvatskoj, Masmedia, Zagreb, 2004. 6. Wagner, H.M., Principles of Management Science, Eaglewood Cliffs, N.J., Prentice-Hall, 1975.
51
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
CIVIL ENGINEERING REGULATIONS
Course code: OA-156 Course status: optional
Pre-requisites: The course consists of: lectures -
-
Hours of Active Classes: 30 exercises: 0 seminars: 0 lectures: 30 ECTS: 3.0
Course objectives
The aim of the course is to provide the students, future civil engineers, with the knowledge of basic legal notions, categories, institutes and law relationships in civil engineering in a broader sense.
Syllabus
Introduction to law: notions, categories, institutes, legal relationships. Regulations on civil engineering. Commercial companies in the industry of construction materials, projects and construction. Relationship with the State. Procedures. Control. Inspections. Individual legal acts. Court procedures.
Student obligations
Seminar paper, preliminary exam, exam
Exam
Written and oral exam.
Assessment (1)
Preliminary exams, seminars (70%), exam (30%).
Essential: 1. UČUR, Marinko. Građevinska regulativa, Građevinski fakultet, Rijeka, 2004; Ustav RH, Zakon o gradnji. Literature Recommended: 1. Zakon o obveznim odnosima; Zakon o vlasništvu i drugim stvarnim pravima; Zakon o radu; Zakon o zaštiti na radu; Pravilnici po Zakonu o gradnji.
52
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
BRIDGES
Course code: NK-134 Course status: mandatory
Pre-requisites: Engineering Materials The course consists of: lectures -
Course objectives
The student is expected to acquire a basic knowledge and understanding of bridge building.
Syllabus
- History of bridge construction; general information on bridges; bridge types; elements of bridge disposition; traffic conditions and external effects - Load carrying bridge structures; Substructure; Bridge equipment - Elements of bridge design - Bridge construction; Maintenance of bridges; Safety standards for bridges - Bridges under extreme conditions; Achivements and future developments in bridge construction
Student obligations
Attendance to the course has to be in accordance to the Faculty regulations. It is compulsory to attend an organized visit to the bridge building sites.
Exam
The exam is taken in written form.
Assessment (1)
Preliminary exams, project work seminar (70%), written exam (30%).
seminars
Hours of Active Classes: 60 lectures: 30 exercises: 15 seminars: 15 ECTS: 5.0
Essential: 1. Štimac, I.: Skripta s predavnjima 2. Radić, J.: Mostovi, Dom i svijet, Zagreb, 2002. 3. Tonković, K.: Oblikovanje mostova, Tehnička knjiga, Zagreb, 1985. Literature Recommended: 1. Šram, S.: Gradnja mostova, Golden marketing, Zagreb, 2002. 2. Tonković, K.: Mostovi u izvanrednim okolnostima, Školska knjiga, Zagreb, 1989.
53
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
INTRODUCTION TO TIMBER STRUCTURES
Course code: NK-137 Course status: mandatory
Pre-requisites: Strenght of Materials The course consists of: lectures exercises
Course objectives
The basic knowledge of properties, conditions and ways of timber application enables acquisition of limited competence. A student should be capable, either independently or as a team member, of designing the timber structures of simpler static systems and shorter spans. The course is a base for further education in T.Str. and overall Str. Eng. studies.
Syllabus
A general survey of timber structures: historical development and modern systems. Material properties of wood: characteristics and classification of timber in structural engineering. Fire-fighting safety, protection and durability of timber structures. Elements of timber structures: proofs of mechanical resistance and stability (EC5). Connectors in timber structures: nails, screws, bolts, wood screws, clamps, dowels, glues, patent connectors, connecting steel plates. Bearing capacity of joints (EC5). Connection details of traditional timber structure elements: constructive carpentry joints, static connections and extensions, design and shaping. Design outlines of traditional timber roofs. Plane frame systems: modelling, designing of elements and characteristic details. Truss systems: modelling, design of elements and joints. Design basics of compound compressive cross-sections: yielding. Glulam girders: basics of design and shaping. Spatial stability of timber structures: bracing.
Student obligations
Elaboration of a shortened main project of a timber structure (disposition, static models, mechanical resistance and stability of the entire structure and its elements, design and shaping of details). Realisation of programmes is adjusted to a firmly set dynamics of the auditor (40%) and constructive exercises (60%).
Exam
The exam is taken in written form.
Assessment (1)
Project work, activity in class, preliminary exams (70%), written exam (30%).
-
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 5.0
Essential: 1. Bjelanović, A., Rajčić, V.: Drvene konstrukcije prema europskim normama, Hrvatska sveučilišna naklada i Građevinski fakultet Sveučilišta u Zagrebu, Zagreb, reizdanje 2007. 2. Lecture and practice notes.
Literature
Recommended: 1. G. Steck: “ 100 HOLZBAU BEISPIELE NACH DIN 1052:2004 “, Werner Verlag, Berlin, 2006. 2. Blass; Kreuzinger; Steck; Ehlbeck; Görlacher: “Erläuterungen zur DIN 1052: 2004-8“ , Beuth-Verlag GmbH, Berlin, 2005. 3. C. Scheer, M. Peter, S. Stohr; “ HOLZBAU TACHENBUCH BEMESSUNGBEISPIELE NACH DIN 1052 AUSGABE 2004 10. Auflage “, Ernst & Sohn, Berlin, 2004. 4. W.M.C.McKenzie & Binsheng Zhang: “Design of Structural Timber to EC5“ (2nd edition), Palgrave Macmillan Limited, Hampshire, 2007. 5. EN 1995-1-1:2004 i EN 1995-1-2:2004, DIN 1052:2004:
54
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
INTRODUCTION TO COASTAL ENGINEERING
Course code: H-119 Course status: mandatory
Pre-requisites: Hydraulic Structures The course consists of: lectures exercises
Course objectives
To develop general competences in ocean and coastal engineering field, analysis of coastal processes, design condition analysis, to learn principles of various types of coastal structures (breakwaters, revetments), to develop competencies in their structural sizing, sizing of quay walls and berthing facilities.
Syllabus
Introduction, types of coastal structures, pecularities of construction in coastal areas Coastal processes, waves and currents design conditions, wave transformation in coastal waters Breakwaters - general description Rubble mound structure design and sizing calculations Composite/vertical wall breakwaters, design and sizing calculations Revetments - types and sizing calculations Design of sheet-pile walls and bulkheads Off-shore structures Ports and harbors open for public traffic, special-purpose ports Mooring and berthing systems, mooring and berthing facilities
Student obligations
course attendance, exercise/project work preparation, representative local coastal structures - site visit
Exam
Written and exam
Assessment (1)
Project work, activity in class, preliminary exams (70%), written exam (30%).
Literature
Essential: 1. Tadejević, Z.; Prsic, M.: "Coastal Hydraulics - Vol. 1. ", GF Zagreb, 1981. 2. Kolhase, Soren: "Oceanographic and civil engineering basics of port design ", script 3. Kirincic, J.: "Ports and mooring berths", Školska knjiga, Zagreb, 1991. 4. USACE Engineering manuals http://www.usace.army.mil/inet/usace-docs/eng-manuals/em.htm
-
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 5.0
Recommended: 1. Bruun, Per "Port Engineering", 1981. 2. Abbot, M.B. & Price, W.A.: "Coastal, Estuarial and Harbour Engineer's Reference Book", 1994.
55
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
WATER RESOURCES AND SYSTEMS
Course code: H-114 Course status: compulsory
Pre-requisites: Hydraulic Structures The course consists of: lectures exercises
Course objectives
Syllabus
seminars
Hours of Active Classes: 60 lectures: 30 exercises: 0 seminars: 30 ECTS: 5
Developing students comprehension about problems related to protection and use of water resources, and related water management infrastructure systems, Preparation of students for solving simpler tasks in the domain of planning and management of water resources and infrastructure systems The dynamics of the hydrological cycle in the natural and anthropogenically changed environments. Typology and analysis of the basic characteristics of water resources - springs, streams, lakes, underground aquifers. Water resources in karst, coastal karst, the problems of salination of water resources. External and storm water - high water problems, flooding and solutions. Structural and non-structural protection measures. Simulation modeling of reservoirs. Regulation of watercourses and their revitalization. Aquatic systems and recreation. Groundwater in urban areas and associated problems in building. The sea as an urban spatial content and recipients of the wastewater. Municipal water infrastructure - water supply systems, drainage systems (waste water and storm water), systems for supply of lower quality water. Functional analysis and organization. Waste water treatment methods for water reuse. Ambient value of water resources. Protected areas. Water resources management. Analyzing examples of water resources and systems in the local area - field work with demonstration of measurements of water quantity and quality.
Student obligations
Course attendance in accordance to University/Faculty regulations. Fieldwork attendance Writing and presenting a paper.
Exam
The exam is taken in written form.
Assessment (1)
Course attendance, seminar, preliminary exams (70%), written exam (30%). Eseential: 1. Margeta, J.: Osnove gospodarenja vodama. GF Split, 1992. 2. Tedeschi, S.: Zaštita voda. HDGI, Zagreb, 1997. 3. Bonacci, O.: Karst hydrology, Springer Verlag, 1987. 4. Rubinić, J: Materijal s predavanja (na web stranici predmetnog kolegija)
Literature
Recommended: 1. Bonacci, O., Roje-Bonacci,T: Posebnosti krških vodonosnika, Građevinski godišnjak 03-04, Hrvatski savez Građevinskih inžinjera, Zagreb, 2004. 2. Bonacci, O.: Ekohidrologija vodnih resursa i otvorenih vodotoka, GA Split i IGI, Zagreb, 2003. 3. Margeta, J.; Azzopardi, E.; Iacovides, I.: Smjernice za integračni pristup razvoju, gospodarenju i korištenju vodnih resursa, PPA, Split, 1999. 4. Linsley, R.K.; Franzini, J.B.; Freyberg, D.L.: Water Resources Engineering, 4/e, McGraw-Hill Book Comp.Inc., New York, 1992.
56
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Course:
URBAN ROADS AND INTERSECTIONS
Course code: P-167 Course status: mandatory
Pre-requisites: Introduction to Road Design The course consists of: lectures exercises
-
Hours of Active Classes: 60 lectures: 30 exercises: 30 seminars: 0 ECTS: 5.0
The goal of the course is to prepare students for elaboration of urban road design and typical solutions of simple traffic problems in the city. Course objectives
After this course student will be able to: - Define characteristics of urban traffic - Define characteristics of urban road network (categories) - Define characteristics and application of urban intersections - Define characteristics and solutions for non-motorized traffic in urban context - Design urban intersection in simple traffic and space conditions, calculate capacity of intersection
Introduction, City traffic characteristics Urban road categorisation, analyses of existing urban city plans (Rijeka, Zagreb..) Geometrical element of horizontal and vertical road design Characteristics of urban intersections Non-motorized traffic in the cities (pedestrian, cycling..) Capacity of urban roads and intersections (HCM) Organisation of parking in the city Garage parking facilities (types, design)
Syllabus
-
Student obligations
- Preliminary exams - Independent tasks - Making solution of simple intersections and smaller parking lots
Exam
The exam is taken in written form.
Assessment (1)
Project work, preliminary exams, activity in class (70%), written exam (30%). Essential: 1. Legac, I. i ostali, Gradske prometnice, Sveučilište u Zagrebu, Zagreb, 2011. 2. Legac, I. i ostali, Raskrižja javnih cesta, Sveučilište u Zagrebu, Zagreb, 2008.
Literature Recommended: 1. M. Maletin, Planiranje i prjjektovanje saobraćajnica u gradovima, OrionArt, Beograd, 2010. 2. Časopisi Suvremeni promet i Građevinar
57
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
Course:
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
RAILWAY ENGINEERING
Course code: P-163 Course status: optional
Pre-requisites: Introduction to Road Design The course consists of: lectures excercises
Course objectives
Student is trained to participate in railway elaboration and construction process on track bed structure and track substructure.
Syllabus
-Railway like a mean of transportation -Historic overview of railway and development -Classification of railway lines and trains -Cross section of railway -Track bed structure and track substructure -Track construction, rails and sleepers -Calculation of stresses; dimensioning of rails, sleepers, ballast and formation level -Basis of rail route design; railway project elements -Railway maintaining and reconstruction -Railway stations -Track device: switch, turntable, rail expansion joint
Student obligations
-accepted project work before specified date, preliminary exam
Exam
Written and oral exam.
Assessment (1)
Project work, preliminary exams (70%), written exam (30%).
-
Hours of Active Classes: 60 lectures: 45 excercises: 15 seminars: 0 ECTS: 5.0
Essential: 1. Marušić, D., Projektiranje i građenje željezničkih pruga, GF Split, Split, 1994 2. Pollak, B., Željeznički gornji stroj, FGZ, Zagreb, 1982 Literature Recommended:
58
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
3.2.2. Explanation of ETCS credits The number of hours of active classes for all the proposed courses has been calculated on the basis of the assumed average duration of one term of 15 (fifteen) weeks (the average duration of the academic year is 30 weeks). The programme includes three regular examination periods of 4 (four) weeks each. The proposed duration of the academic year is a total of 42 working weeks: 2x15 weeks of classes and 3x4 weeks of examination periods. During the academic year the student gains a minimum of 60 ECTS credits for all the proposed programmes. In view of the above mentioned, the calculation of the number of hours that make one ECTS credit would be: 1 ECTS = 42 (weeks) X 40 (working hours per week) / 60 ECTS = 1.680 hours / 60 ECTS = 28 hours. 1 ECTS CREDIT is equivalent to 28 hours of the student’s study load The number of ECTS credits allocated to the particular courses has been calculated on the basis of the complexity of the course teaching material (syllabus) and the general and specific obligations the student has to fulfill in connection with the course: - the general obligations include an estimate of: the time needed to attend classes, tutorials, prepare exams, take exams, as well as of the quantity of literature he uses to prepare the exam. - specific obligations include an estimate of the time needed for: preliminary exams, project work, seminar work, laboratory practice, fieldwork, visiting construction sites etc. The course load coefficient is determined in proportion to the course share in the workload of the particular term so that the student gains 30 ECTS credits per term. 3.2.3. Quality assurance procedures and course (module) performance indicators The performance of all the courses will be continuously monitored by different procedures of evaluation and selfevaluation of teachers and students. The evaluation of the teachers and teaching activities will be carried out by the course lecturers (teachers) and will be organized by the Faculty body responsible for monitoring and identifying actions needed for the improvement of quality of the programme. Different procedures and methods for monitoring and evaluating the quality of the teaching activities and the course performance will be used: - conducting research and opinion polls among students on all the aspects of teaching: o regular course delivery and organization of the teaching process o literature o methods for improvement of teaching o exams o syllabus and methodology of delivery o student / teacher relations and collaboration o work load – ETCS CREDITS - publishing the results of research and opinion polls - analysing the exam results (pass rate, transparency, objectivity and the like). The quality of the teaching performance of the particular courses will be evaluated twice during the term: for the first time 3-4 weeks after the beginning of the classes and for the second time during the last week the classes are taken. The results of the first evaluation may improve the teaching activities in the current term. All research and questionnaires will be conducted on forms prepared in advance, in which the teachers will be able to adapt the questions to the course curriculum, methodology and other specific demands that the course has to meet. The course lecturer will, independently and/or in coordination with the responsible persons at the Faculty, work out the plan of measures for better learning results in a particular course.
59
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
3.3. -
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
STUDY STRUCTURE In the first year of study a student enrolls in courses according to the program as follows: Hours of active Exam / COURSE classes (L+E+S) Preliminary exam
ECTS
1 2
Linear Algebra Mathematical Analysis I
30+30+0 45+45+0
Exam Exam
6,0 7,5
3
Mechanics I
30+30+0
Exam
5,5
4
Computers and Information Science
30+25+5
Exam
4,5
5
Constructive Geometry
45+15+30
Exam
6,0
Exam Exam
30,0 4,5 5,5
Total 1 2
Physics Strength of Materials I
360 45+15+0 30+30+0
3
Mechanics II
30+30+0
Exam
5,5
4
Geodesy
30+15+0
Exam
3,5
5
Civil Engineering Structures
30+15+0
Exam
4,0
6
Foreign Language
30+0+30
Preliminary exam
3,5
7
Optional course of group I
30
Preliminary exam
3,0
Total
360
Semester
1st winter
2nd summer
30,0
Sport and recreational activities coordinated through the Physical Training and Health Culture (1.0 ECTS) will be organized for students. - Foreign Language: student chooses one of the offered languages. Hours of active Exam / FOREIGN LANGUAGE ECTS classes (L+E+S) Preliminary exam 1 The English Language 30+0+30 Preliminary exam 3,0 2 The German Language
Semester 2nd summer
- Enrollment in the second and subsequent years of study is defined in Article 34 Decision of Amendments of Regulations on Studies at the University of Rijeka and Prerequisites under Section 3.3.2.1. of this study program. Hours of active Exam / MANDATORY COURSE ECTS Semester classes (L+E+S) Preliminary exam 1. 2.
Mathematical Analysis II Strength of Materials II
45+45+0 30+30+0
Exam Exam
7,5 5,5
3.
Applied Geology
30+5+0
Exam
3,0
4.
Structural Mechanics I
45+30+0
Exam
6,5
5.
Structure and Characteristics of Materials
30+0+0
Exam
2,5
6.
Hydrology
30+15+0
Exam
3,0
7.
Basics of Concrete Structures
45+30+0
Exam
6,0
8.
Introduction to Steel Structures
30+30+0
Exam
5,0
9.
Introduction to Hydraulic Engineering
30+30+0
Exam
5,0
10.
Construction Management and Technology
45+30+0
Exam
6,0
11.
Geotechnical Engineering
45+30+0
Exam
6,0
60
winter
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
MANDATORY COURSE
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
Hours of active Exam / ECTS classes (L+E+S) Preliminary exam
12.
Soil and Rock Mechanics
45+20+10
Exam
5,5
13.
Structural Mechanics II
45+30+0
Exam
6,5
14.
Fluid Mechanics
30+30+0
Exam
5,5
15.
Introduction to Road Design
30+30+0
Exam
4,5
16.
Engineering Materials
30+30+0
Exam
5,0
17.
Construction Economics
30+15+0
Exam
4,0
18.
Fieldwork
0+30+0
Preliminary exam
3,0
19.
Final Year Project
0+0+30
Exam
5,0
Semester
summer
- Elective Courses Groups I-V: the student chooses one of the courses offered within each group of courses, summer or winter semester. The student is required to choose one elective subject from the elective course groups I-V. Group ELECTIVE COURSES
Hours of active Exam / ECTS classes (L+E+S) Preliminary exam
Engineering Geometry Computer Applications
10+0+20 10+10+10
Introduction to Programming
10+20+0
Communication Skills Introduction to Language Culture
15+15+0 15+15+0
Construction History
15+0+15
Building and Constructing English
15+10+5
III
Introduction to Spatial Planning Building Design
IV V
I
II
Semester
Preliminary exam
3,0
summer
Preliminary exam
2,0
winter
30+0+15 15+30+0
Preliminary exam
3,0
summer
Introduction to Building Physics Environmental Protection
20+0+10 15+0+15
Preliminary exam
2,0
winter
Management in Civil Engineering Civil Engineering Regulations
30+0+15 30+0+0
Exam
3,0
summer
ECTS
Semester
5,0
summer
- Elective Course Group VI: student chooses 3 of the offered 6 courses: Group ELECTIVE COURSES
VI
Hours of active Exam / classes (L+E+S) Preliminary exam
Bridges Introduction to Timber Structures
30+15+15 30+30+0
Introduction to Coastal Engineering
30+30+0
Water Resources and Systems
30+0+30
Urban Roads and Intersections
30+30+0
Railway Design
45+15+0
61
Exam
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
3.3.1 Study Dynamics Study Dynamics is pursuant to article 3.3 3.3.2 Student Requirements Student requirements are defined by valid regulations, especially by Regulations on Studies of University of Rijeka and its Amendments and course curricula defined by the study program (article 3.2.1 Course Description). Specific requirements are defined in the Regulation on studies of the Faculty of Civil Engineering of University of Rijeka. 3.3.2.1 Enrollment requirements for the subsequent academic year Student requirements are defined by valid regulations, especially by Regulations on Studies of University of Rijeka and its Amendments and course curricula defined by the study program. Specific requirements are defined in the Regulation on studies of the Faculty of Civil Engineering of University of Rijeka. 3.3.2.2. Pre-requisites for courses enrolment Course Code
PRE-REQUISITES (PASSED EXAM)
COURSE
1.
M-181
Mathematical Analysis II
Mathematical Analysis I (M-183)
2.
TM-146
Strength of Materials II
Strength of Materials I (TM-145)
3.
G-104
Applied Geology
Constructive Geometry (M-180)
4.
TM-149
Structural Mechanics I
Mechanics I (TM-147)
5.
G-106
Soil and Rock Mechanics
inscribed Applied Geology * (G-104)
6.
TM-149
Structural Mechanics II
Inscribed Structural Mechanics I* (TM-150)
7.
H-115
Fluid Mechanics
Mechanics II (TM-148)
8.
P-165
Introduction to Road Design
Geodesy (P-164)
9.
MK-124
Engineering Materials
Physics (FD-198)
10.
NK-135
Basics of Concrete Structures
Strength of Materials I, Structural Mechanics II
11.
NK-136
Introduction to Steel Structures
Structural Mechanics I (TM-150)
12.
H-118
Introduction to Hydraulic Engineering
Fluid Mechanics (H-115)
13.
OA-147
Construction Management and Technology
Structure and Characteristics of Materials (MK-123)
14.
G-107
Geotechnical Engineering
Soil and Rock Mechanics (G-106)
15.
OA-148
Construction Economics
inscribed Construction Management and Technology *
16.
OA-149
Fieldwork
achieved 120 ECTS *
17. ZR-PRED Final Year Project
achieved 120 ECTS *
18.
NK-134
Bridges
Engineering Materials (TM-148)
19.
NK-137
Introduction to Timber Structures
Strength of Materials II (TM-146)
20.
H-119
Introduction to Coastal Engineering
Hydrology (H-117)
21.
H-114
Water Resources and Systems
Hydrology (H-117)
22.
P-167
Urban Roads and Intersections
Introduction to Road Design (P-165)
23.
P-163
Railway Design
Introduction to Road Design (P-165)
62
UNIVERSITY OF RIJEKA FACULTY OF CIVIL ENGINEERING
ACADEMIC UNDERGRADUATE PROGRAMME IN CIVIL ENGINEERING
3.4. LIST OF COURSES THE STUDENTS CAN ENROLL INTO AT OTHER COURSES OF STUDY Students are allowed to enroll into other courses taught at other courses of study at the Faculty of Civil Engineering in Rijeka or another high education institution. The earned ECTS credits will be accepted pursuant to article 3.6 of this study program. Committee for Academic Evaluation and Evaluation of Study Duration can allow the student to take the elective course from the list of offered courses carrying up to 5 ECTS credits at another faculty of University of Rijeka. 3.5.
1.
LIST OF COURSES THAT CAN BE OFFERED IN FOREIGN LANGUAGE Foreign language in which the course Course Code COURSE can be offered M-178 Linear Algebra English Language, Italian Language
2.
M-183
Mathematical Analysis I
English Language, Italian Language
3.
TM-147
Mechanics I
4.
TM-148
Mechanics II
English Language English Language
5.
TM-145
Strength of Materials I
English Language
6.
TM-146
Strength of Materials II
English Language
7.
H-117
Hydrology
English Language
8.
H-119
Introduction to Coastal Engineering
English Language, Italian Language
9.
OA-154
Construction History
English Language, Italian Language
10.
OA-157
English Language, Italian Language
11.
MK-122
Civil Engineering Structures Introduction to Building Physics
English Language, Italian Language
3.6. CRITERIA AND CONDITIONS FOR TRANSCRIPTION OF ECTS ECTS credits that the student acquires with enrollment of courses at another faculty of University of Rijeka or any other University during this study, which are not the same as this study courses, will be registered in student’s Diploma supplement. For transcription of the ECTS acquired on identical courses (the difference in the content of up to 30%) at civil engineering faculties in Croatia (at universities of Zagreb, Split and Osijek), institutions of higher education at the University of Rijeka and those faculties with which the university has signed a cooperation agreement does not require special decisions. Recognition of exams is regulated by Regulation on studies of the Faculty of Civil Engineering of University of Rijeka. 3.7. COMPLETION OF THE STUDY Study is completed successfully passed all the programs prescribed exam, satisfied all other obligations to the studio and writing and oral exam (public presentation) final work to the supervisor. It is preferable that other teachers and students attend the final exam (presentation). 3.8.
CONDITIONS FOR CONTINUATION OF THE STUDY FOR STUDENTS WHO INTERRUPTED THE STUDY Students who interrupted the undergraduate university degree study can re-enter within the next five (5) academic years. By re-entering they accept all changes of the program made during their absence from the study. All passed exams and completed courses which are identical to those under the current program are recognised.
63
